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US4387297A - Portable laser scanning system and scanning methods - Google Patents

Portable laser scanning system and scanning methods
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US4387297A
US4387297AUS06/125,768US12576880AUS4387297AUS 4387297 AUS4387297 AUS 4387297AUS 12576880 AUS12576880 AUS 12576880AUS 4387297 AUS4387297 AUS 4387297A
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housing
laser
laser scanning
scanning head
head
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US06/125,768
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Jerome Swartz
Edward Barkan
Shelley A. Harrison
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Symbol Technologies LLC
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Symbol Technologies LLC
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Application filed by Symbol Technologies LLCfiledCriticalSymbol Technologies LLC
Priority to US06125768priorityCriticalpatent/US4387297B1/en
Priority to GB8106022Aprioritypatent/GB2070832B/en
Priority to CA000371938Aprioritypatent/CA1154872A/en
Priority to FR8103938Aprioritypatent/FR2477302B1/en
Priority to JP2929281Aprioritypatent/JPS56140467A/en
Priority to IT20091/81Aprioritypatent/IT1138713B/en
Priority to DE3107922Aprioritypatent/DE3107922C2/en
Priority to DE3153253Aprioritypatent/DE3153253C2/de
Priority to US06/321,934prioritypatent/US4496831A/en
Publication of US4387297ApublicationCriticalpatent/US4387297A/en
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Priority to CA000431959Aprioritypatent/CA1173103A/en
Priority to US06/543,878prioritypatent/US4593186A/en
Priority to GB08328690Aprioritypatent/GB2134679B/en
Priority to SG752/87Aprioritypatent/SG75287G/en
Priority to HK525/88Aprioritypatent/HK52588A/en
Assigned to NATIONAL WESTMINSTER BANK USA, A NATIONAL BANKING ASSOCIATIONreassignmentNATIONAL WESTMINSTER BANK USA, A NATIONAL BANKING ASSOCIATIONSECURITY INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: SYMBOL TECHNOLOGIES, INC.
Priority to JP2073164Aprioritypatent/JPH02288986A/en
Priority to JP2073165Aprioritypatent/JPH02288987A/en
Priority to JP2073167Aprioritypatent/JPH02282879A/en
Priority to JP2073166Aprioritypatent/JPH02288988A/en
Priority to JP2073168Aprioritypatent/JPH02282880A/en
Assigned to SYMBOL TECHNOLOGIES, INC., A CORP OF DEreassignmentSYMBOL TECHNOLOGIES, INC., A CORP OF DERELEASED BY SECURED PARTY (SEE DOCUMENT FOR DETAILS).Assignors: NATIONAL WESTMINSTER BANK USA
Priority to JP2201601Aprioritypatent/JPH0380386A/en
Assigned to SYMBOL TECHNOLOGIES, INC., A CORP. OF DELAWAREreassignmentSYMBOL TECHNOLOGIES, INC., A CORP. OF DELAWAREMERGER (SEE DOCUMENT FOR DETAILS). EFFECTIVE DATE- 11/20/87 - N.Y.Assignors: SYMBOL TECHNOLOGIES, INC.
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Abstract

An entirely field-portable laser scanning system for reading bar code symbols includes a light-weight and small-sized laser scanning head. The laser source, power supply component, optics, scanning elements, sensor circuit, and signal processing circuitry are specially designed for minimal size and weight and volume such that they can all be mounted in the head. The head can be bracket-mounted or hand-held. The housing for the head can be provided with a handle grip, or can be gun-shaped. Highspeed oscillating scanning motors and/or penta-bimorph scanners are used as scanning elements. A trigger initiates repetitive scanning of each object bearing a symbol, and an indicator indicates when the scanning of that particular object has been terminated. A body harness supports the remaining scanner system circuitry. A non-bulky, freely-movable cable interconnects the head to the body harness. Methods of scanning the symbol and of operating the system are also disclosed.

Description

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention generally relates to laser scanning systems for, and methods of, scanning, reading and/or analyzing bar code symbols and, more particularly, to a miniature laser scanning system which is completely field-portable due to its light-weight and small-size and small-volume characteristics. Still more particularly, this invention relates to a hand-held laser scanning head in which the laser source, power component, optics, scanning elements, sensors, and signal processing circuitry are all mounted therein. Yet more particularly, this invention relates to new high-speed scanning elements and their methods of scanning.
2. Description of the Prior Art
Many industries, particularly the grocery and food processing industry, have begun to designate their products with a unique bar code symbol consisting of a series of lines and spaces of varying widths. Various bar code readers and laser scanning systems have been developed to decode the symbol pattern to a multiple digit representation for check-out and inventory purposes.
For example, the contact-type wand or pen bar code readers were manually positioned on the symbol, and then manually dragged across the symbol, with the pen tip always remaining in contact with the symbol. Skilled personnel were generally required to effect the movement, because, among other factors, the angle and pressure of the pen on the symbol was somewhat critical, and the speed of the pen during its manual movement, as well as the uniformity of the pen speed, were also critical.
These contact-type pens were disadvantageous not only because of the requirement for skilled personnel, but also because the pen tip tended to scar the symbol itself. Repetitive manual sweeps were often necessary, because successful decoding may not have occurred on the first attempt. Also, in some applications, a product may need to be scanned several times a day, or repetitively over the years. To protect the symbols, mylar protective coatings were used; however, the mylar coating is not only expensive, but also diffuses the light, thereby resulting in reading problems.
The lack of uniformity of the pen speed also means that the pen readers could not be reliably used as scanners, and particularly not for accurately measuring line widths in symbol analyzers, which measurement requires a uniform scanning speed.
Contact-type pen readers cannot be used with wax-coated products, such as milk cartons, because the wax diffuses the light and also adheres to the pen tip, thereby necessitating constant cleaning of the tip.
Nor can contact-type readers be used on soft products, such as soft-packaged potato chips, cheese, or blood bags. The user would have to follow the wrinkles with the pen over these soft packages, and might even rip the package itself.
Nor can contact-type readers be used where the bar code symbol is located on the outer surface of relective aluminum cans; also, contact-type readers cannot be used where the symbol is not located at the outer surface of the packaging. For example, cassette tapes are coded, but the plastic container for the cassette spaces the symbol at a small, but non-negligible, distance from the outer plastic surface of the container across which the pen is dragged. This small distance can cause light diffusion and non-reading.
Some wand or pen readers are of the non-contact type, i.e., the pen tip need not be in physical contact with the symbol. Nevertheless, the depth of focus is not large, and the pen must be positioned in the immediate vicinity of the symbol. For all practical purposes, the non-contact pens are usually manually dragged across the symbol, thereby resulting in the scarring and cleaning problems discussed above.
Moreover, non-contact pens still require criticality in the manipulation of the angle of the pen on the symbol, the pen speed, the pen pressure and the uniformity of pen speed. Most importantly, just like the contact-type pens, the user, at best, gets one scan per manual movement. If the symbol was not successfully read on the first attempt, then the user must repeat the manual scan again and again until a successful decode has been performed. This is time- and labor-consuming.
True laser scanners, not manual readers, are built-into supermarket counters. These point-of-sale or "deck" scanners may be of the moving beam or fixed beam type. However, these are large, massive, stationary installations. Some objects are too heavy, or too big, or too inconvenient to be brought to the stationary scanning installation. Some objects may be stationary themselves.
More modern scanners have recently been designed to have hand-held, portable laser scanning heads. However, the known portable heads weigh over three pounds and are too heavy for those assembly-line applications where a user is reading codes all day long. The known portable heads are also somewhat difficult to manipulate easily due to their size, as well as due to the fact that a rather thick and somewhat unwieldy cable interconnects the portable head to a desk-top console which houses the decode circuitry. The cable contains relatively thick, shielded wires and a relatively thick power wire which do not permit a relatively easy freedom of movement as the portable head is manipulated.
SUMMARY OF THE INVENTION
1. Objects of the Invention
Accordingly, it is the general object of the present invention to overcome the aforementioned drawbacks of the prior art.
Another object of the invention is to eliminate the requirement of using skilled personnel to effect a carefully practiced manual scanning movement across a bar code symbol.
Still another object of the invention is to eliminate scarring or tearing of the symbol during scanning.
Yet another object of the invention is to accurately scan a symbol with a high degree of reliability on the first attempt without requiring subsequent scanning attempts.
An additional object of this invention is to provide a completely field-portable and mobile laser scanning system.
A further object of this invention is to provide an entirely field-portable and light-weight laser scanning system in which some of the components thereof are mounted in a hand-held head, and others of the components thereof are mounted in a body harness.
Still another object of this invention is to provide a lightweight laser scanning head of small volume and low weight such that it can be mounted at any desired location on an assembly line without requiring extensive modification to the assembly line.
Another object of this invention is to provide a laser scanning head which is so light-in-weight and small-in-volume that it can be easily held in a user's hand.
Yet another object of this invention is to provide a handheld, gun-shaped housing which has good balance and a low center of gravity, and is easy to manipulate.
A further object of this invention is to provide a laser scanning head which is shock-resistant.
Still another object of this invention is to reliably scan a symbol using either a generally circular beam spot or a generally rectangular or oval beam spot.
An additional object of this invention is to provide novel high-speed miniature scanning elements and novel scanning methods of operation.
Yet another object of this invention is to conveniently generate single line, multi-line or omni-directional scan patterns with the same scanning elements.
Still another object of this invention is to sense objects bearing the bar code symbols, each in their respective turn.
A further object of this invention is to repetitively scan a symbol a sufficient number of times before attempting to scan another symbol.
An additional object of this invention is to sense the reflected light off the symbol over an expanded field of view.
Yet another object of this invention is to interconnect the laser scanning head and the rest of the scanning system with a flexible, non-bulky cable which is easy to manipulate.
Still another object of this invention is to shut-down the laser source of the laser scanning system after a predetermined time interval has elapsed in which no symbol has been scanned.
Yet another object of this invention is to eliminate frequent shut-down of the laser source of the laser scanning system immediately after a symbol has been scanned.
2. Features of the Invention
In keeping with these objects and others which will become apparent hereinafter, one feature of the invention resides, briefly stated, in a light-weight laser scanning head comprising a housing having wall portions which bound an outlet port and an interior space. A miniature light source means, preferably a laser tube or a semi-conductor laser diode, are mounted within the housing, for generating a laser light beam. Miniature optic means are also mounted within the housing for directing the laser light beam along a light path through the outlet port and towards a bar code symbol which is located in the vicinity of a reference plane that is located exteriorly of the housing. Miniature scanning means, preferably a high-speed scanning motor and/or a penta-bimorph scanning element, are mounted in the light path within the housing for cyclically sweeping the laser beam across the symbol for reflection therefrom. Miniature sensor means, preferably a pair of photodiodes, are mounted within the housing for detecting the intensity of light reflected from the symbol, and for generating an electrical analog signal indicative of the detected intensity of the reflected light. Miniature signal processing means, e.g. analog-to-digital circuitry and envelope detection circuitry, are mounted within the housing for processing the electrical analog signal to generate therefrom data descriptive of the bar code symbol.
In accordance with one feature of this invention, the light source means, optic means, scanning means, sensor means and signal processing means are all mounted within the housing whose volume is less than about 100 cubic inches. Moreover, all the aforementioned means together with the housing weigh less than about two and one-half pounds. The small volume and low weight characteristics of the laser scanning head permit it to be readily mounted at an inspection station of an assembly line without requiring extensive modification to the latter.
Another feature of the invention is embodied in providing a handlebar-type grip on the housing so that the user can conveniently grip the rear end of the housing in his hand and hold the head in the palm of his hand.
In accordance with another feature of this invention, the housing may be shaped in a gun-like configuration having a handle portion mounted below a barrel portion. This feature provides for convenient manual support of the head by the user.
Another feature of the invention resides in mounting the heaviest component within the handle portion so as to provide for a low center of gravity and for an optimum balance design for the head.
Still another feature of the invention is to utilize a multimode laser tube which generates a laser beam characterized by a non-uniform brightness characteristic which varies with time, and to optically modify the latter to produce a beam where the non-uniform brightness effects are much less pronounced over a considerable working distance in the vicinity of the reference plane.
Another feature of the invention is embodied in providing a semiconductor laser diode having a rectangular laser-emitting cavity for generating a laser beam having a rectangular or oval-shaped cross-sectional beam spot. By sweeping the rectangular or oval-shaped spot such that its longer dimension is aligned with the height of the symbol, the laser scanning head possesses better symbol resolution capability.
In accordance with yet another feature of this invention, a new light-weight, high-speed, miniature light beam scanning device is disclosed. This device comprises a scanning motor having an output shaft, and motor control means for driving the scanning motor to reciprocally oscillate the output shaft in alternate circumferential directions over arc lengths which are less than 360°, and typically over arc lengths of about 5°. Light-reflecting means are mounted on the shaft for joint oscillating movement therewith. The light beam which impinges on the light-reflecting means will be rapidly swept across a symbol to be scanned in predetermined cyclical manner.
Still another high-speed, miniature light beam scanning device proposed by this invention, is a penta-bimorph. The penta-bimorph comprises a pair of spaced-apart bimorph elements, and light-reflecting surfaces mounted on each bimorph element and oriented at a 45° angle relative to each other. An incoming light beam which impinges on one of the light-reflecting surfaces will be reflected off the other of the light-reflecting surfaces at a right angle relative to the incoming beam for any undesired motion of the entire penta-bimorph even as the bimorph elements resonate and create the output scan pattern.
Both the scanning motor and the penta-bimorph are high-speed scanners which do not utilize any springs, as is common with galvonometer-type optical scanners. Such springs generally contribute to the large size of the galvanometer-type scanners and, of course, the scanning elements of this invention do not comprise any such springs, nor are they faced with the possibility of any such springs wearing out through prolonged use.
Another feature of the invention resides in a completely field-portable and mobile laser scanning system which comprises a hand-held laser scanning head, a body-support harness, and a non-bulky connecting cable connected between the harness and the head. The connecting cable readily accommodates itself to span the everchanging distance between the harness and the head as the latter is moved from one symbol to another. Inasmuch as the signal processing means converts the generated analog signal to a digital signal in the head, only digital signals are required to be conducted along the connecting cable. Such digital signals do not require radio frequency shielding and hence, the individual wires are much thinner and more flexible as compared to the prior art connecting cables. Furthermore, it is no longer necessary to bring high voltage to the head by means of a thick power wire. This likewise contributes to the bendability of the connecting cable.
Another important feature of this invention is the capability of sensing objects, each in their respective turn. It is critical to distinguish between whether many scans have been performed for one object, or whether one scan has been performed for many objects. When a user approaches an object bearing a symbol, he manually actuates a trigger to initiate repetitive scanning of the symbol. Once the decode circuitry has determined that a sufficient number of scans have been performed to successfully decode the symbol, then the user is alerted, typically by an indicator, such as a light-emitting diode and/or a beeper, that the repetitive scanning of the object has been terminated. The trigger can be released either prior to, or after, the indicator is actuated, The actuation of the trigger and the indicator are separate definable events in which only a single object has been repetitively scanned for a determinate number of times.
Another feature of the invention is based on safety considerations. In some prior art systems, the laser tube itself is shut down after each scanning of a symbol in order to prolong the laser working lifetime. In other applications, a mechanical shutter is placed in the path of the laser beam. Those mechanical shutters are generally run by solenoids which wear out over time, and which require a lot of drive power.
In contradistinction to those prior art safety techniques, the present invention proposes to place a laser-reflecting means associated with the scanning means in the light path of the laser beam, and thereupon to move the laser-reflecting means to a shutter position. In accordance with this feature, transmission of the laser beam through the outlet port is prevented without separately deactuating the laser tube and without using a solenoid-operated mechanical shutter assembly.
The novel features which are considered as characteristic of the invention are set forth in particular in the appended claims. The invention itself, however, both as to its construction and its method of operation, together with additional objects and advantages thereof, will be best understood from the following description of specific embodiments when read in connection with the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a side sectional view of a gun-shaped embodiment of a laser tube-based laser scanning head in accordance with this invention;
FIG. 2 is a top sectional view of the gun-shaped embodiment of FIG. 1;
FIG. 3 is a front view of the gun-shaped embodiment of FIG. 1;
FIG. 4 is a side sectional view of a miniature high-speed scanning motor with schematically-illustrated control circuitry in accordance with this invention;
FIG. 5 is a diagrammatic view of the motor of FIG. 4 with the rotor in its equilibrium position;
FIG. 6 is analogous to FIG. 5, but showing the rotor in one of its sweep-limiting positions in solid lines, and its shutter position in dashed lines;
FIG. 7 is analogous to FIG. 5, but showing the rotor in the other of its sweep-limiting positions;
FIG. 8 is a feedback circuit for modifying the output shaft speed motor of FIG. 4;
FIG. 9 is a closed loop scanning motor control circuit for the motor of FIG. 4 in accordance with this invention;
FIG. 10 is an electrical schematic of the motor control circuit of FIG. 9;
FIG. 11 is a schematic view of a completely field-portable and mobile laser scanning system utilizing the FIG. 1 gun-shaped embodiment of a laser scanning head in accordance with this invention;
FIG. 12 is a schematic view of a semiconductor laser diode-based embodiment of the portable laser gun scanning head in accordance with this invention;
FIG. 13 is a diagrammatic view of an assembly line equipped with a box-shaped, bracket-mounted embodiment of a laser scanner head serving as an inspection station in accordance with this invention;
FIG. 14 is a schematic view of another hand-held embodiment of a laser scanning head in accordance with this invention;
FIG. 15 is a diagrammatic view of a penta-bimorph scanning element with schematically-illustrated drive circuitry in accordance with this invention; and
FIG. 16 is an electrical circuit diagram of the control circuitry in accordance with this invention.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTSI. LASER TUBE SCANNER
Referring now to FIGS. 1-3 and 11 of the drawings,reference numeral 10 generally identifies a light-weight, hand-held, portable laser scanning head for use in a laser scanning system operative for reading and/or analyzing bar code symbols. Such symbols comprise a series of lines and spaces of varying widths, which pattern decodes to a multiple digit representation characteristic of the product bearing the symbol. Typical symbol bar codes in current use are the Universal Product Code (UPC), EAN, Codabar and Code 39.
Turning again to FIG. 1, the portablelaser scanning head 10 includes a generally gun-shaped housing having ahandle portion 12 and abarrel portion 14. Thehandle portion 12 has a cross-sectional dimension and overall size such that it can conveniently fit in the palm of a user's hand. Thebarrel portion 14 is connected to thehandle portion 14 atdetachable connectors 16,18.
Both the handle and barrel portions are constituted of a light-weight, resilient, shock-resistant, self-supporting material, such as a synthetic plastic material. The plastic housing is preferably injection-molded, but can be vacuum-formed or blow-molded to form a thin shell which is hollow and bounds an interior space whose volume measures less than a value which is on the order of 100 cubic inches. The specific value of 100 cubic inches is not intended to be self-limiting; it has been provided merely to give an approximation of the overall maximum volume and size of thehead 10. The overall volume can be much lower than 100 cubic inches, and indeed, in some applications, interior volumes on the order of 50 cubic inches are obtainable.
Thebarrel portion 14 is generally horizontally elongated and hasopposite end regions 20,22. Thehandle portion 12 is elongated and is connected to the barrel portion such that the handle portion forms an angle with the latter. Thedetachable connectors 16,18 mount the handle portion below the barrel portion and intermediate theopposite end regions 20,22 of the latter. This feature permits the user to conveniently manually support thehead 10 from below the barrel portion and at a location for optimum manual manipulation and balance of the head.
Miniature light source means for generating a laser light beam is mounted in the interior space of thebarrel portion 14. In one preferred embodiment, the light source is a co-axial helium-neon laser tube 24 which generates a red-light beam at a wavelength of 632.8 nanometers. The laser tube is a hard-sealed, unpackaged tube. The laser tube is of light-weight (i.e., less than six ounces; typically on the order of three ounces); is of short length (i.e., less than eight inches; typically on the order of five inches); has a low input DC power requirement (i.e., anode voltage less than 1100 volts, typically about 650 volts; anode current less than 4.5 milliamps, typically about 4 milliamps); has a low firing voltage (i.e., less than six kilovolts, typically about 3.4 kilovolts maximum); has a low output power (i.e., on the order of 0.5 milliwatts); and is long-lasting (i.e., on the order of 15,000 hours).
Thelaser tube 24 produces a light beam in the TEMnmq mode. This multi-mode tube generates a laser light beam having an axial cross-sectional, generally circular, beam spot in the immediate vicinity of theanode 26 which is about 35 mils in diameter. It will be understood that the laser light beam diverges in direction away from theanode 26 at an angle of divergence at about 3.5 to 4 milliradians. In contrast to conventional single mode laser tubes whose output beam circular spots are characterized by a gaussian brightness distribution characteristic which does not vary over time, the circular beam spot of themulti-mode laser tube 24 is characterized by a non-uniform brightness characteristic which varies with time. Visual observation of the output beam spot of the multi-mode tube is characterized by darker zones within the output beam spot, which darker zones move randomly within the output beam spot in a manner roughly analogous to sunspot activity.
Straps 32,34 having springs at their respective ends are wrapped around thetube 24 for mounting the latter on a motherboard orsupport plate 30.Rubber bumpers 36,38 are used to mount the support plate in shock-resistant relationship with the barrel portion. Specifically,bumper 36 is mounted between the housing and a frontvertical flange portion 40 of theplate 30 in order to minimize to-and-fro horizontal movement of the plate and its associated components mounted thereon.Bumper 38 is mounted between the housing and a rearward horizontal portion of theplate 30 in order to minimize up-and-down vertical movement of the plate and its associated components.
The underside of thelaser tube 24 which faces theplate 30 is received in a pair of spaced-apartgrooved supports 42,44. Eachsupport 42,44 has a threaded adjustment element which is threadedly mounted on thesupport plate 30. The threadedelements 46,48 are independently turnable to adjust the position of the laser tube relative to the support and, in particular, to properly align the laser light beam with respect to the miniature optic means, as described below.
TheDC power supply 50 for supplying DC power to thelaser tube 24 is mounted within the interior space of thehandle portion 12. TheDC power component 50 occupies a volume of about four cubic inches and weighs about six ounces. This power component is the heaviest component from among all the other components mounted within the housing, and therefore, the placement of this heaviest component within the handle portion provides the head with a low center of gravity and better balance for ease of manipulation.
As best shown in FIG. 16, thepower supply 50 has aninput terminal 52 to which low DC voltage, e.g. 12 VDC, is applied. The 12 volts DC is supplied by a separate non-shielded wire conductor which is located within connectingcable 58. Thesupply 50 also has anoutput terminal 54 which supplies the appropriate anode voltage and anode current to theanode 26 of thelaser tube 24 via aballast resistor 55. Theballast resistor 55 is about 100 kilohms, 2 watts. Thecathode 28 of thetube 24 is grounded.
Thesupply 50 further includes acontrol terminal 56 which is operatively connected to atrigger switch 60 and to a control circuit, as described in detail below. The presence or absence of a control signal at thecontrol terminal 56 determines whether or not the anode voltage is generated at theoutput terminal 54. The electrical connections for thevarious terminals 52, 54,56 have been omitted from FIG. 1 for the sake of clarity.
Turning again to FIG. 1, the laser light beam is directed to miniature optic means which is also mounted in the barrel portion. The optic means includes an optical train operative for optically modifying the laser light beam, and for directing the modified beam along a light path through the housing. The beam exits the housing through anoutlet port 62 located atend region 20, and impinges on a bar code symbol which is located in the vicinity of a reference plane that is located exteriorly of the housing.
The optical train includes a beam expandingnegative lens 64 and an objectivepositive lens 66 each having individual f numbers which are typically in the range from f/6 to f/7. The f number for the beam exiting the optical train is typically in the f/50 to f/60 range. Other choices of lens parameters can lead to larger numbers for the depth of focus in the range from 1" or more for the multi-mode laser.
As noted above, the beam spot diameter immediately outside the laser tube is about 35 mils. Thebeam expanding lens 64 increases the beam spot diameter to about 250 mils at theobjective lens 66. The optical train will focus the beam such that the beam spot will have a diameter on the order of from 5 to 7 mils at the reference plane which is about 260 mm away from theobjective lens 66. The 6 mil spot size at the reference plane is maintained on both sides of the latter over a working distance. In a preferred embodiment, the reference plane is spaced about 1 inch away from theend region 20 of thebarrel portion 14, and the working distance is about 2 inches. Hence, the 6 mil spot size is generally maintained from theend region 20 for a distance of 1 inch to the reference plane, and also beyond the latter for an additional 1 inch. A bar code symbol placed anywhere in this region will be accurately decoded and/or analyzed.
The focal lengths and distances of the positive and negative lenses of the optical train are specially designed to modify the multi-mode laser beam. The beam spot at the reference plane still contains dark zones, but the uneven brightness characteristic is less pronounced.
The optics for a single mode laser tube are more conventional then for the multi-mode case, and f numbers for the lenses would typically lie in the range from f/120 to f/200 to obtain depths of focus in the range from 2" to 3". For the multi-mode case, the f numbers for the lenses are lower, thereby mandating a smaller depth of focus on the order of 1". However, we have found that the working distance can be greater than 1", and typically in the neighborhood of 2".
The preferred embodiment of thepositive lens 66 for minimum spot size is an infinity-corrected achrometric doublet, wherein the spot size will be increased only about 5% over the diffraction condition. If a single plano-convex singlet is used, as illustrated, the spot size will be increased by about on the order of 40%.
Miniature scanning means are mounted in the light path in the interior space of the barrel portion for cyclically sweeping the laser beam across the bar code symbol for reflection therefrom. The scanning means comprises at least one miniature scan means 68 for sweeping the symbol along a predetermined direction (X-axis scanning) lengthwise thereof. The scanning means may, but not necessarily, comprise another miniature scan means 70 for sweeping the symbol along a transverse direction (Y-axis scanning) which is substantially orthogonal to the predetermined direction.
Many types of scan elements can be utilized for either scan means 68,70. For example, miniature polygons driven by motors can be used, or the various bimorph scanning oscillating elements described in co-pending U.S. patent application Ser. No. 911,171, filed May 31, 1978, now U.S. Pat. No. 4,251,798.
Nevertheless, the X-axis scan means 68 and the Y-axis scan means 70, as described in detail below, are particuarly compatible in terms of their size and weight to be mounted within thebarrel portion 14. The operation of these scan means 68,70 will be discussed below in connection with FIGS. 4-10. At this stage of the discussion, it is sufficient to understand that both scan means 68,70 are scanning motors which have reciprocally oscillatingoutput shafts 72,74. Light-reflecting means or mirrors 76,78 are respectively mounted onshafts 72,74 and positioned in the light path. Motor control means are operative for driving each motor to reciprocally turn each shaft in a predetermined cyclical manner in alternate circumferential directions over arc lengths which are less than 360°. Typically, the arc lengths will be about 5° relative to the vertical. Of course, other arc lengths could also be utilized. Any light beam impinging on the mirrors will be moved at a very rapid rate of speed which is at least on the order of five oscillations per second, and typically about 100 oscillations per second.
The miniature scanning means includes a stationary light-reflectingmirror 80 which is fixedly mounted on the support plate and which is positioned at a 45° angle relative to the axis about which theoutput shaft 72 turns. The light beam leaving theobjective lens 66 impinges on thestationary mirror 80, and is thereupon reflected in a horizontal plane to impinge on themirror 76 which, in turn, is mounted on theshaft 72 and is positioned at a 45° angle relative to the turning axes ofshafts 72,74. The light impinging onmirror 76 is reflected upwardly to mirror 78 which is mounted on theshaft 74 at a 45° angle. The light impinging onmirror 78 is thereupon reflected forwardly in lengthwise direction along thebarrel portion 14. The light beam passes through the laser beam-transmissive exit window 62.
The reciprocal oscillation of theshaft 72 causes the light beam to be moved lengthwise along the bar code symbol to thereby obtain X-axis scanning. If desired, the reciprocal oscillation of theshaft 74 causes the light beam to be moved along the height of the symbol to thereby obtain Y-axis scanning.
If only theX-axis scanning motor 68 is driven such thatmirror 76 is driven at a uniform rate of speed, then the laser beam will be linearly displaced in horizontal direction, and a generally linear scan line will be generated at the reference plane. If the Y-axis scanning motor 70 is likewise driven such thatmirror 78 is driven at a uniform rate of speed, then the laser beam will be linearly displaced in vertical direction, and a raster-type scan pattern will be generated at the reference plane. The scan pattern comprises a set of generally parallel, equidistantly spaced-apart scan lines which are stacked one about another along the vertical direction.
Other types of scan patterns are also available. For example, if the X- and Y-axis scanning motors are both driven such that mirrors 76,78 are driven at a sinusoidally-varying rate of speed, then the scan pattern at the reference plane will be a Lissajous-type pattern for omni-directional scanning of UPC sympols.
Thebarrel portion 14 has anupper wall portion 82 and a lower taperedwall portion 84 respectively located above and below the output port at theend region 20. Theupper wall portion 82 is generally planar and has no upstanding projections mounted thereon in the vicinity of theend region 20. The outlet port is dimensioned to be wide and narrow. The laser beam exits the outlet port at a location just below the upper wall portion. Hence, theupper wall portion 82 serves as a convenient sighting guide in which to accurately aim the laser light beam towards the target symbol. It will be recognized that a user generally sights the target symbol from a position generally behind thehead 10, and that therefore, anupper wall portion 82 having projections would block his view. The smoothupper wall portion 82 described above avoids visual interference between the housing and the laser beam itself.
Miniature sensor means are likewise mounted on thefront upright flange 40 of thesupport plate 30 in the interior space of the housing. The miniature sensor means includes a photo-sensor device such as a photomultiplier tube or a semiconductor photodiode, for detecting the intensity of the light reflected from the symbol, and for generating an analog electrical signal indicative of the detected intensity of the reflected light.
As shown in FIG. 1, the reflected light first passes through theexit window 62, and thereupon passes through the red-light laser beam-transmissive filter 90, whereupon it impinges on a pair ofphotodiodes 86,88. The photodiodes are mounted in spaced-apart relationship on theflange 40, and generate an analog electrical signal. Two diodes are used, rather than one, in order to increase the field of view. The two diodes are spaced apart such that their individual zones of coverage overlap each other. If the field of view of the scanning means is on the order of four inches, then the photodiodes are spaced about two inches apart for complete zone coverage.
Miniature signal processing means 92 (see FIG. 2) are also mounted in the interior space of thebarrel portion 14 for processing the electrical signal generated from the sensor means. The processing means is fixedly mounted on thesupport plate 30 at one side of thelaser tube 24. The processing means is preferably fabricated as an integrated circuit which processes the electrical analog signal and digitizes it to generate data descriptive of the bar code symbol. Reference may be had to co-pending application Ser. No. 911,171, filed May 31, 1978, now U.S. Pat. No. 4,251,798, for details of one preferred type of signal processing means.
The control circuitry 94 (see FIG. 2) for the scanning means 68,70 is likewise preferably fabricated as an integrated circuit and is mounted on the other side of the laser tube. All of the electrical connections for thephotodiodes 86,88, the processing means 92, and thecontrol circuitry 94 for the scanning means 68,70 have been omitted from FIGS. 1-3 for the sake of clarity. A detailed description of the control circuitry is set forth below in connection with FIG. 16.
All of the above components, including, among others, thelaser tube 24; thepower supply component 50; thelenses 64,66; thescanning motors 68,70; thephotodiodes 86,88; theprocessing circuitry 94; thecontrol circuitry 94; and thesupport plate 30 together with thehandle portion 12 and thebarrel portion 14 of the housing comprise a light-weight scanning head whose total weight measures less than a value which is on the order of two and one-half pounds. The specific two and one-half pound weight figure is only exemplary, and is not intended to be self-limiting. Typically, weights on the order of one to two pounds are readily obtainable and, in the semiconductor laser diode embodiment described below, weights on the order of less than one pound are realized.
Theportable head 10 depicted in FIGS. 1-3 and 11 is a hand-held unit, and flexiblenon-bulky cable 58 interconnects thehead 10 to the remaining components of the laser scanning system. These remaining components include, among others, the digital signal decode computer circuitry, the data storage circuitry, and, in some applications, the control voltages for thepower supply 50 and for thecontrol circuitry 94. These additional circuitry components can be mounted in a desk-top console for AC wall power operation, or in the preferred embodiment of FIG. 11, they can be incorporated into abody harness 100 to be worn by the user. In this latter case, a rechargeable battery pack is mounted on the harness for complete field-portability of the entire system.
Thebody harness 100 can be a back-pack or preferably a belt-pack (see FIG. 11) which is worn about the user's waist. Thedecode computer circuitry 102 is mounted on the belt-pack, and is operative to decode the digitized signals generated by the signal processing means 92. Thedata storage circuitry 104 is also mounted on the belt-pack, and is operative to store the decoded signals. Essentially, thedata storage circuitry 104 is a self-contained memory device, such as non-volatile bubble memory means, or magnetic cassette, or volatile semiconductor read/write memory means. The low voltagerechargeable battery supply 106 is likewise mounted on the belt-pack. Thedecode circuitry 102,data storage circuitry 104 andbattery 106 can be separately mounted on thebelt 100, or can all be mounted within a single housing roughly measuring about 2"×4"×10". The entire laser scanning system is completely field-portable and self-contained.
It is also within the spirit of this invention to miniaturize the additional components mounted on the belt-pack 100, particularly by large scale integration of the decode computer circuitry into from one to three chips, and to mount these additional components into the housing of theportable head 10 itself. In that case, the entire laser scanning system can be held in the user's hand.
Thecable 58 comprises a plurality of radio-frequency non-shielded wires therein. Some of these wires conduct the input voltage to theinput terminal 52 of thepower supply 50, as well as biasing voltages for the control circuitry. Another wire conducts the digitized signals from the processing circuitry 92 to the belt-pack 100. Still another wire conducts an indicator signal to the light-emittingdiode 99 and/or theauditory beeper 98 to indicate, either visually or by sound, that the symbol has been successfully decoded.
All of the aforementioned non-illustrated individual wires are unshielded. This means that thecable 58 is relatively small in cross-section, light-in-weight, non-bulky, and flexible, and therefore is easily moved when thehead 10 is aimed at different target symbols. Thecable 58 is characterized by multiple freedoms of movement and does not require excessive strength on the user's part for manipulation purposes.
Thehead 10 need not have the gun-shaped configuration as depicted in FIGS. 1-3 and 11. Other configurations such as streamlined or box-like configurations are also contemplated. For example, another hand-held configuration for thehead 10a is shown in FIG. 14. Thestreamlined head 10a is basically identical to the gun-shaped head, except that thehandle portion 12 is co-linear with the barrel portion and that the rear end of thebarrel portion 14 has finger-receivinggrooves 101 resembling a handlebar-type grip. The user can thus grip the head and hold it in the palm of his hand.
Another feature of thestreamlined head 10a is anexternal rubber bumper 103 which could be utilized for any of the housings disclosed herein. As noted above, like any hand-held equipment, a hand-held laser scanner head must be strong enough to withstand some physical abuse, such as being unintentionally pushed off a table onto the floor. Hence, the rubber shock mounts 36,38 are used to support therigid plate 30 within the housing in such a way as to allow the plate and the components mounted thereon to momentarily shift within the housing under shock loading. Sufficient clearance is provided around theplate 30 to allow it to move without hitting the inside wall of the housing. After the shock has passed, the rubber shock mounts will return the inner structure to its original position within the housing.
Shock absorbtion is also performed by flexing of the resilient outer housing wall itself. Constructing the outer housing out of suitable material such as vacuum-formed ABS can permit this flexing with no damage occurring to the housing.
Still further shock absorbtion is obtained by the rubber bumper orridge 103 running around the outside of the housing and positioned so as to absorb the most common shocks such as dropping the scanner on its side on a table. The housing is molded in two parts, and theridge 103 is placed between the two housing parts.
As another example, the miniature size, small volume, and light-weight characteristic of thehead 10 make it suitable not only for hand-held applications, but also for conveniently converting any designated location on a production line to an inspection station or to any on-line symbol affixing station. As best shown in FIG. 13, the box-shapedhead 10b is provided with a bracket 11 for stationarily mounting thehead 10b at any designated location on theassembly line 13. A plurality ofobjects 15 are conveyed past thehead 10 for inspection purposes. Thehead 10b can also be conveniently mounted on a support stand.
The miniature size and light weight parameters insure that extensive modification to theproduction line facility 13 is not required. In view of the fact that the inspection station is stationary, it is not necessary to mount the DCpower supply component 50 within thehead 10. Instead, the DCpower supply component 50 can be mounted at another location remote from the interior space of the housing, thereby obviating the need for providing a handle as in the gun-shaped version.
II. HIGH-SPEED SCANNING MOTOR
The structural and functional details of theX-axis scanning motor 68 are illustrated in FIGS. 4-10. These details are identical for Y-axis scanning motor 70, and hence will not be repeated for the sake of brevity.
Thescanning motor 68 is a light-weight, miniature laser light beam scanning device for the high-speed scanning of bar code symbols in laser scanning systems. Themotor 68 includes anoscillatory output shaft 72 which is journalled in bearing 108; and amirror 76 fixedly mounted on theshaft 72 for participating in the joint oscillatory movement therewith.
Themotor 68 includes an upper cup-shapedstator housing 110 and a lower cup-shapedstator housing 112.Stator coil windings 114, 116 are respectively mounted instator housings 110, 112. Apermanent magnet rotor 120 is journalled onstub shaft 118 which is co-linearly arranged withshaft 72. Therotor 120 is surrounded by the stator coils, and is operatively connected to theoutput shaft 72 for joint oscillatory movement therewith.
Theupper stator housing 110 has a pair of poles 122,124 mechanically displaced by 180°. Thelower stator housing 112 has a pair of poles 126,128 mechanically displaced by 180°. The upper poles 122,124 are spaced 90° apart from the lower poles 126,128. Thepermanent magnet rotor 120 is magnetized with the same number of pole pairs (i.e., one pair) as contained by each stator coil winding.
The structural aspects of thescanning motor 68 are analogous to a simplified stepper motor, which is a device which is used to convert electrical pulses into discrete mechanical angular movements every time the polarity of a stator winding is changed. By alternately energizing and de-energizing the two stator coils of a stepper motor, the magnetic interaction between the rotor poles and the stator poles causes the rotor to turn in discrete angular steps over the entire 360° circumference of the output shaft.
In contradistinction to stepper motors, the motor control means 94 is operative to oscillate theshaft 72, first in one circumferential direction over an arc length less than 360°, and secondly in the opposite circumferential direction over an arc length less than 360°, and thereupon to repeat the aforementioned cycle at a high rate of speed. Each arc length is typically about 5° relative to the vertical, although other angular displacements are possible. The rate of oscillation is typically on the order of one hundred cycles per second.
The motor control means 94 includes reference means 140 for applying a generally constant low level DC voltage to one of the stator windings. For example, a 12 v DC signal is applied to stator winding 114 viaconductor 132. The motor control means also includes variable means 142 for applying a periodic voltage of time-varying amplitude to the other of the stator windings. For example, a triangular voltage waveform is applied to stator winding 116 viaconductor 134.
In FIGS. 5,6 and 7, the reference means applies a constant positive DC voltage tostator coil 114, thereby energizing stator poles 122,124 as north and south, respectively. In FIG. 5, the variable means applies a zero voltage tostator coil 116, thereby permitting the permanent north and south poles of the rotor to align themselves with stator poles 122,124, as shown. In FIG. 6, the variable means applies a positive DC voltage tocoil 116, thereby energizingstator poles 126 and 128 as north and south, respectively, and concomitantly causing the rotor to turn in clockwise direction to an angular position which is dependent upon the positive amplitude of the voltage applied tocoil 116. In FIG. 7, the variable means applies a negative DC voltage tocoil 116, thereby energizingstator poles 126 and 128 as south and north, respectively, and concomitantly causing the rotor to turn in counterclockwise direction to an angular position which is dependent upon the negative amplitude of the voltage applied tocoil 116.
In summary, theshaft 72 is moved in an analog manner to an angular position which corresponds to the amplitude of the periodic voltage. The number of degrees of angular movement is proportional to the voltage amplitude. The speed of movement of theshaft 72 corresponds to the rate of change of the periodic voltage. The direction of movement, i.e. clockwise or counterclockwise, is dependent upon the slope, i.e. positive or negative, of the periodic voltage. The oscillation rate is proportional to the periodicity of the periodic waveform. The rate of oscillation is at least five oscillations per second, and in a preferred embodiment, the rate is on the order of one hundred cycles per second.
The periodic voltage waveform can be any time-varying voltage, such as a sawtooth, sinusoidal or triangular waveform. For periodic drive waveforms, the speed of the shaft is non-linear, and in fact, is sinusoidal-like in the sense that the shaft speed slows down when the shaft approaches the sweep-limiting positions of FIGS. 6 and 7, and speeds up when the shaft approaches the equilibrium position of FIG. 5.
In order to obtain more linear tracking of the shaft position with respect to the amplitude of the periodic drive voltage, one adjustment is to pre-set the amplitude of the constant DC voltage which is applied tostator coil 114 by adjusting the reference means 140 to a predetermined value. All oscillatory components can be characterized by a resonant frequency. For thescanning motor 68, the resonant frequency is determined, among other things, by the mass of the moving structure and by the fixed magnetic field (i.e., spring constant) which is established by the stator windings. Hence, by changing the DC voltage level applied tostator coil 114, one adjusts the frequency of movement of the shaft to any desired value.
If the reference means 140 is adjusted such that the frequency of movement is at or near the inherent resonant frequency, then a large amplitude of motion for the shaft is obtained for a relatively small input power. This adjustment is used for those applications where a minimum power drain is desired, typically in battery-powered operation.
On the other hand, if the reference means 140 is adjusted such that the frequency of movement is remote from the resonant frequency, then more linear tracking of shaft position versus drive voltage amplitude is obtained at the expense of input power. This adjustment is useful for those applications where a more linear sweep is desired; for example, for measuring bar code widths.
Another method of obtaining more linear tracking is to widen the sweep by over-driving theshaft 72 to sweep-limiting positions which are more angularly spaced apart to sweep a field of view which is more than necessary to scan the symbol. We have recognized that the shaft undergoing a sinusoidal-like movement undergoes a somewhat linear movement over a central portion of its overall movement. Analysis of the harmonically-varying angular velocity reveals that the linear spot velocity of the beam spot on the scan surface is relatively constant over a much larger portion than normally expected. Perhaps twice as much of the duty cycle portion of the harmonic motion is useable. The linear spot velocity of the harmonically-varying angular velocity can be described as a complex transcendental function, and has a velocity which is uniform to within a few percent over a ±25° to 30° range.
Hence, in the vicinity of the equilibrium position, the shaft undergoes a somewhat linear movement. By over-driving theshaft 72 to generate a sweep having a field of view on the order of eight inches, in a situation where only a four inch sweep is required to adequately scan a symbol, the speed of theshaft 72 is essentially linear over the central three and one-half to four inches of sweep.
Still another method of obtaining more linear tracking is to utilize the feedback circuitry depicted in FIG. 8. The drive waveform VD is applied to the positive input terminal of thedifferential amplifier 144. The amplifier output is connected to one end of the stator coil winding 116. The voltage at the opposite end of thecoil 116 is connected to ground viaresistor 146, and is fed back to the negative input terminal of theamplifier 144 viafeedback conductor 148. The voltage in thefeedback conductor 148 is the attenuated drive voltage which is superimposed with the voltage generated by the stator coil due to shaft motion. The voltage in thefeedback conductor 148 attempts to follow the drive voltage, thereby making the output shaft speed more uniform.
Any laser light impinging on themirror 76 will therefore be linearly swept across the target symbol. If two scanning motors are used, then the laser beam can be swept over two mutually orthogonal directions to generate raster-type scan patterns. Of course, if omni-directional scan patterns, such as Lissajous-type patterns, are required for some applications, then the above-described linear tracking techniques are not utilized. The unmodified sinusoidal-like movement of the output shaft then represents a significant feature of the scanning motor element.
The miniature scanning motor weighs about one ounce, and occupies a volume on the order of one inch×0.4 inches. The scanning motor also has a long working-lifetime on the order of 10,000 hours, because it is frequently shut down, as described below.
Yet another method of obtaining more linear tracking is illustrated by the closed loop scanning motor control circuit depicted in FIGS. 9 and 10. The scanning motor control circuit includes thescanning motor 68 operative for reciprocally oscillating theshaft 72 first in one direction, and then the other, with angular motion of always less than 360°, as described above. Themirror 76 is mounted at the end of theshaft 72 to reflect a light beam in a desired predetermined manner.
The control circuit comprises aprimary coil 160, two or moresecondary coils 162 and 164, and amovable shield 166. Theprimary coil 160 is energized by aradio frequency oscillator 168. The secondary coils 162,164 are juxtaposed physically close to theprimary coil 160. Theshield 166 is fixedly mounted onmotor shaft 72 for joint oscillatory movement therewith, and is located between theprimary coil 160 and the two secondary coils 162,164.
As best shown in FIG. 10, the tuning capacitors 170,172 tune the secondary coils to resonate at the frequency at which the primary coil is excited. When the primary coil is excited, the secondary coils are inductively coupled to it to establish an oscillating magnetic field, and an AC voltage of the same high oscillating frequency as the primary coil appears across the secondary coils, and is detected by thesensing circuitry 174.
Theshield 166 modifies the radio frequency signal at the primary coil which is coupled to the secondary coils by an amount proportional to the area of the latter covered by the shield. As theshaft 72 oscillates, the shield moves relative to the magnetic field, the voltage across one secondary coil increases as that secondary coil becomes unshielded, and concomitantly the voltage across the other secondary coil decreases as it becomes more shielded.
Thevoltage sensing circuitry 174 comprises peak diode detector sub-circuits which include diodes 176,178 and resistor-capacitor parallel-combinations 180,182. Each detector sub-circuit detects the voltage on its respectively associated secondary coil, and feeds the voltages to adifferential amplifier 184 for generating a difference signal which is proportional to the angular displacement of theshaft 72. This difference signal is, in turn, fed to one input of anotherdifferential amplifier 186, whose other input is supplied with a control voltage. The output drive signal is fed to the stator coil.
In a preferred embodiment, the primary coil with its oscillator is printed on a printed circuit board. The primary coil is printed with a circular pattern, and theshaft 72 extends through the center of the primary coil. The secondary coils are printed with their sensing circuitry on another printed circuit board. The secondary coils are printed as generally triangular patterns with the apex located on the shaft axis.
Referring now to FIG. 16, eachminiature scanning motor 68,70 is provided with a reference means 140 and a variable voltage means 142. In addition, shutter means 150 are provided in thecontrol circuitry 94 for generating a shutter voltage which moves either or both output shafts of themotors 68,70 to a shutter position in which the associated mirrors are moved such that the laser beam is prevented from passing through theoutlet port 62 towards the symbol.
The shutter means 150 is electrically connected to the variable voltage means. In one embodiment, the shutter means 150 generates a voltage having an amplitude greater than the amplitude of the drive voltage. In FIG. 6, the dashed line representation of the rotor 120' depicts the shutter position. The large amplitude voltage displaces the output shaft to a greater angular extent than that required by the sweep-limiting position shown in solid lines. In this case, the associated mirror is moved out of the light path, to thereby interrupt laser beam transmission.
In another preferred embodiment, the shutter means is not operative to move the mirror out of the sweep range, as described above. Instead, the shutter means is operative to move the mirror to a position within the sweep range such that the reflected light will not pass through the outlet port. The reflected light can be contained within the housing itself, or preferably can be diverted to a light absorber, such as a black body, mounted within the housing.
In the preferred embodiment, the variable voltage means moves the mirror such that the reflected laser light beam is swept across a field of view which is longer than the length of the exit window at theoutlet port 62. In effect, the housing walls at opposite sides of the exit window intercept the laser light beam and block its transmission when the beam is swept through its entire sweep range beyond the length dimension of the exit window. In this case, the shutter position can be any position of the mirror which results in its reflected light being directed beyond the length dimension of the exit window. It will be noted that the shutter position in this case is within the entire sweep range, but is still such that the laser light beam is prevented from reaching the symbol.
The shutter position represents a motor shut-off condition. The frequent motor shut-downs described below means a very low duty cycle.
III. OBJECT SENSING
As described above, the scanning means is operative to rapidly and repetitively scan the target symbol. For proper operation, it is necessary to distinguish between whether many scans have been performed for one object, or whether one scan has been performed for many objects. The capability of sensing each object to be scanned in its turn is critical for successful decoding.
Trigger means 60 (see FIGS. 1 and 10) is operative for actuating the scanning means 68,70 to repetitively sweep the bar code symbol a number of times each time the trigger means 60 is actuated. Trigger means 60 is preferably a manually-depressable switch mounted on the housing in the vicinity of the interconnection of the barrel and handle portions of the housing. Thetrigger switch 60 is located on the handle portion such that the forefinger of the user's hand can be used to manually depress the switch. Each time the switch is depressed, the scanning means sweeps the symbol many times, on the order of two hundred times.
When thedecode circuitry 102 successfully decodes the symbol, which may occur on the first scan or at any scan up to and including the two hundredth scan, the decode circuitry generates a successful decode signal and conducts the latter through a conductor in thecable 58 to actuate the indicator means located in the head. The indicator means comprises an auditory-type beeper 98 and/or a light-emittingdiode 99. When thebeeper 98 sounds and/or when thediode 99 lights up, then the user knows that the scanning for that particular symbol has been terminated. The actuation of theswitch 60 and the actuation of the indicator means are definable events which advises the laser scanning system when scanning begins and ends. Thetrigger 60 may be released either before or after actuation of the indicator means.
When scanning ends, upon indication of the indicator means, themechanical shutter circuitry 150 moves the output shafts to their shutter positions, thereby preventing further laser beam transmission out through the outlet port. Thelaser tube 24 is not shut off at this time; only the scanning motor is shut down. This not only represents a safety feature, but also lengthens the working-lifetime of the laser tube and of the scanning motors.
Actuation of the trigger means 60 concomitantly turns thelaser tube 24 on, provided that the laser tube was previously shut-down. Moreover, actuation of the trigger means 60 simultaneously turns timer means 152 on. The timer means 152 remains operative for a predetermined time period, on the order of five minutes. If thetrigger switch 60 is not actuated during the five minute timing period, then the laser tube is automatically shut down by sending a control signal to thecontrol terminal 56 of thepower supply component 50. This conserves power. If the trigger switch is pulled during the timing period, then the timing period is reactivated, and the laser tube has another five minutes to wait before it is automatically shut-down in the event that the trigger switch is not depressed again in the next five minutes. Another light-emitting diode 97 (see FIG. 1) is mounted on the head to indicate the on-off status of the laser at all times.
As noted above, each actuation of the trigger means 60 initiates a plurality of scans until the decode circuitry has determined that a successful decode measurement has taken place, at which time a successful decode signal is conducted to either thebeeper 98 and/or the light-emittingdiode 99. The sound and/or the light indication advises the user that the repetitive scanning has been terminated, and that another symbol can now be scanned.
The repetitive scanning for each object results in higher reliability as compared to the prior art readers and scanners where only one manual or automatic scan is performed. In some instances, the printing of the symbol on the product is poor in terms of the contrast of the color of the lines of the symbol as compared to the color of the spaces of the symbol. In these cases, the probability of getting a successful decode on any given scan attempt for a given object (i.e., percent decode) is very low, and thus poor printing also contributes to low reliability.
It can be shown that the probability of getting at least one decode after N scans is determined by the following equation:
P=1-(1-P.D.).sup.N
wherein
P=probability of getting at least one successful decode after N scans (%);
N=Number of scans per attempt; and
P.D. =Percent decode, i.e. the probability of getting a successful decode on any given scan (%).
If we assume that the percent decode of a given symbol is about 10% because of its poor printing, and that the laser scanning system of this invention performs about 200 scans a second, then: ##EQU1## By contrast, for prior art readers and scanners which only scan once for an object, then: ##EQU2##
The virtual certainty (100%) of getting a successful decode using repetitive scanning even for poorly printed symbols which have only a 1 in 10 chance of being successfully decoded, as compared to the very low certainty (10%) for the prior art devices illustrates the high reliability of our invention.
In the event that no successful decode measurement has been made, then the trigger means is operative to terminate the repetitive scanning upon elapse of a predetermined time period as measured from actuation of the trigger. The predetermined time period, typically on the order of three seconds, is selected to provide the user with sufficient time to sight the object.
Scanning will also be automatically terminated if the trigger is released before the aforementioned three second time period has lapsed and before a successful decode measurement has been obtained.
Another or the same visual and/or auditory indicators can be used to indicate that the scanner system has not successfully decoded the symbol to be read.
IV. LASER DIODE SCANNER
The means for generating a laser beam need not be thelaser tube 24, as described above, but may be asemiconductor laser diode 200, as shown in FIG. 12. The laser diode may be of the continuous wave- or pulse-type. Such laser diodes are commercially available from many sources, such as the General Optronics Corporation, Laser Diode, Inc., and Optical Information Systems, Inc.
Thelaser diode 200 is mounted in thehead 10. In one preferred mounting arrangement, thediode 200 is mounted on aheat sink 202 which is threadedly mounted to thehead 10. Thediode 200 is much smaller in size and lighter in weight as compared to thelaser tube 24. Hence, the use of a laser diode is particularly desirable for applications where weight requirements, on the order of less than one pound, and size requirements, on the order of less than fifty cubic inches, are to be kept to a bare minimum.
Moreover, in contrast to thelaser tube 24 which requires a high voltage (i.e. 650 v DC) power supply and a low voltage (i.e. 12 v DC) power supply, thelaser diode 200 only requires a low voltage (i.e. 12 v DC) power supply. The elimination of the highvoltage power supply 50 conserves even more space and weight.
Thelaser diode 200 is formed with a generally rectangular cavity or laser-emittingaperture 204 which measures about one micron×ten microns. The emitted laser beam diverges outwardly from theaperture 204 and has an asymmetrical angular splay which measures about 10°-20°×40°-50°. Thelens system 206 is designed with a numerical aperture on the order of 0.25, a net magnification from about 10X to about 15X, and an f number on the order of about f/2. The scanning means and signal processing means have been omitted from FIG. 12 for the sake of clarity.
Due to therectangular exit aperture 204, the axial cross-section of the beam spot is likewise generally rectangular or oval in shape. The elongated beam spot at the reference plane is on the order of 6 mils×1 mil. The longer dimension of the elongated spot is aligned along the height of the symbol to be scanned. The shorter dimension of the elongated spot is aligned along the length of the symbol to be scanned.
Scanning with a rectangular or oval beam spot is more desirable than scanning with a circular beam spot, because the elongated spot generates electrical signals having more abrupt amplitude changes as the elongated spot moves across a dark-light transition on the symbol. When an elongated spot is juxtaposed with a dark line on the symbol, variations in line width over the entire height of the line are averaged out. When the elongated spot thereupon moves into the next space, the transition is more abrupt for an elongated spot as compared to a circular spot. This greater resolution capability reduces decoding errors, particularly for symbols where the contrast between the printed lines and spaces is poor.
Thelens system 206 is designed to allow for a small angular tilt of about 10° to about 15° in the alignment of the elongated spot relative to the lines of the symbol.
V. PENTA-BIMORPH SCANNING ELEMENT
Turning now to FIG. 15, a penta-bimorph scanning element is generally identified byreference numeral 250. The penta-bimorph 250 is a miniature, high-speed scanning element which can replace either theX-axis scanning element 68, or the Y-axis scanning element 70, or both.
The penta-bimorph 250 comprises a pair ofbimorphs 252, 254 which are ferro-electric-type oscillating elements which reciprocally oscillate when voltages are applied thereto. At their lower ends, the bimorphs are mounted on a groundedsupport structure 256. At their upper ends, light-reflecting mirrors 262,264 are mounted on the bimorphs such that they include a 45° angle between their reflecting surfaces. Wedge-shaped blocks 258,260 are mounted between the mirrors and the bimorphs to properly position the mirrors at the aforementioned angle.
Before describing the drive circuitry, it should be noted that the incoming light beam Li and the outgoing light beam Lo include a right angle therebetween. The incoming beam impinges onmirror 264, thereupon is reflected to mirror 262, and then is reflected at a 90° angle relative to the incoming beam. More importantly, as described below, even if the entire penta-bimorph is subjected to mechanical shock, the right angle relationship between the incoming and outgoing beams is maintained throughout the scanning movement.
The bimorphs 252,254 are driven in a manner resembling the movement of the tines of a tuning fork. For example, a voltage is applied tobimorph 252 to drive the same in an oscillatory manner in the direction of the double-headed arrow. Regenerative feedback is provided to drive theother bimorph 254. Anoperational amplifier 266 has its positive input terminal connected to thesensing bimorph 254. The negative terminal is connected through acapacitor 268 to the wiper arm of a gain-adjustpotentiometer 270. The amplifier output is connected to the drivenbimorph 252.
The drive circuitry is operative to oscillate the two bimorphs in anti-phase relationship. In other words, the two bimorphs either simultaneously move towards each other, or simultaneously move apart of each other.
Throughout the entire oscillating scanning movement, the incoming and outgoing beams always define a right angle therebetween. This is analogous to the penta-prism effect, wherein the beam exiting from one face always defines a 90° angle with the beam entering from another face. The establishment of a constant angular relationship between the incoming and outgoing beams is advantageous in making the penta-bimorph scannning element 250 insensitive to vibration- or shock-effects. Even if the housing in which the penta-bimorph is mounted is subjected to undesirable mechanical forces, the scanning will not be effected, because the effects of the mechanical forces are completely cancelled. Moreover, the penta-bimorph is self-compensating due to temperature, because both bimorphs will be affected in the same manner.
By adjusting the gain-adjust control of the potentiometer to a value just over the threshold for oscillation, the penta-bimorph should closely approach a harmonic oscillator.
Moreover, the penta-bimorph greatly amplifies the scanning movement. Themirror 264 doubles the amplification; themirror 258 doubles the amplification again; and the anti-phase movement of the two mirrors doubles the amplification still again. The outgoing beam scans over a relatively long range as compared to the range over which the incoming beam is moved.
It will be understood that each of the elements described above, or two or more together, may also find a useful application in other types of constructions differing from the types described above.
While the invention has been illustrated and described as embodied in a portable laser scanning system and scanning methods, it is not intended to be limited to the details shown, since various modifications and structural changes may be made without departing in any way from the spirit of the present invention.
Without further analysis, the foregoing will so fully reveal the gist of the present invention that others can by applying current knowledge readily adapt it for various applications without omitting features that, from the standpoint of prior art, fairly constitute essential characteristics of the generic or specific aspects of this invention and, therefore, such adaptations should and are intended to be comprehended within the meaning and range of equivalence of the following claims.

Claims (46)

What is claimed as new and desired to be protected by Letters Patent is set forth in the appended claims:
1. In a laser scanning system for reading bar code symbols, a light-weight easy-to-manipulate laser scanning head normally supportable only by a user throughout the reading of the symbols, comprising:
(a) a housing having wall portions bounding an outlet port and bounding an interior space whose volume measures less than a value which is on the order of 100 cubic inches;
(b) a light source mounted in the interior space of the housing for generating a laser light beam;
(c) miniature optic means mounted in the interior space of the housing for directing the laser light beam along a light path through the outlet port and towards a bar code symbol which is located exteriorly of the housing by a distance sufficient to permit the user to conveniently register the laser light beam on the symbol by sighting the symbol along a direct line of sight which does not pass through the housing;
(d) miniature scanning means mounted in the light path and in the interior space of the housing for cyclically sweeping the laser light beam across the bar code symbol for reflection therefrom;
(e) miniature sensor means mounted in the interior space of the housing for detecting the intensity of light reflected from the bar code symbol, and for generating an electrical signal indicative of the detected intensity of the reflected light;
(f) miniature signal processing means mounted in the interior space of the housing for processing the electrical signal to generate therefrom data descriptive of the bar code symbol;
(g) all of said light source, optic means, sensor means and signal processing means together with said housing comprising the light-weight laser scanning head whose total weight measures less than a value which is on the order of two pounds;
(h) handle means for normally supporting the light-weight laser scanning head in non-contacting relationship with the symbol during reading thereof; and
(i) manually actuatable trigger means on the housing for initiating reading of the symbol each time the trigger means is manually actuated by the user.
2. The laser scanning head as defined in claim 1, wherein the housing is generally gun-shaped and the handle means has a handle portion of a size dimensioned to be gripped by the hand of a user, and a barrel portion connected to the handle portion.
3. The laser scanning head as defined in claim 2; and further comprising means for mounting the handle portion below the barrel portion for convenient manual support of the laser scanning head from below the barrel portion.
4. The laser scanning head as defined in claim 2, wherein the power supply means includes a power supply component whose weight is the heaviest from among the optic, scanning, sensor and signal processing means; and wherein said heaviest power supply component is mounted in the interior space of the handle portion for better balance of the laser scanning head.
5. The laser-scanning head as defined in claim 1, wherein the optic means is mounted on a support plate; and further comprising means for shock mounting the support plate within the housing to minimize to-and-fro and up-and-down movement of the optic means on the support plate during symbol reading.
6. The laser scanning head as defined in claim 2, wherein the light source, the optic means, the scanning means, and the sensor means are all mounted on a support plate; and further comprising means for mounting the support plate within the barrel portion and in shock-resistant relationship therewith.
7. The laser-scanning head as defined in claim 6, wherein said plate-mounting means includes first shock means operatively connected between the plate and the housing to minimize to-and-fro horizontal movement, and second shock means operatively connected between the plate and the housing to minimize up-and-down vertical movement.
8. The laser scanning head as defined in claim 1; and further comprising a power supply component mounted in the interior space of the housing, and operatively connected to, and supplying power for, the light source.
9. The laser scanning head as defined in claim 1; and further comprising means for mounting the laser scanning head at an inspection station for reading bar code symbols on items to be inspected.
10. The laser scanning head as defined in claim 9; and further comprising a power supply component for energizing the light source, said power supply component being mounted at the inspection station at a location remote from the interior space of the housing.
11. The laser scanning head as defined in claim 1, wherein the housing has a streamlined body portion shaped to fit within the palm of a user's hand.
12. The laser scanning head as defined in claim 11, wherein the streamlined body portion has gripping means for facilitating manual gripping by a user.
13. The laser scanning head as defined in claim 1, wherein the light source includes a light-weight laser tube for generating the laser light beam, and means for adjusting the position of the laser tube relative to the housing for aligning the laser light beam.
14. The laser scanning head as defined in claim 1, wherein the light source includes a helium-neon laser tube in unpackaged form for generating a red-light beam at a wavelength of 632.8 nanometers.
15. The laser scanning head as defined in claim 1, wherein the sensor means mounted in the housing is operative to generate an analog electrical signal, and wherein the signal processing means mounted in the housing is operative to process the analog signal to a digitized electrical signal.
16. The laser scanning head as defined in claim 15; and further comprising power supply means operatively connected to, and supplying power for, the light source, scanning means, sensor means and signal processing means, said power supply means including a direct current power supply component mounted in the interior space of the housing and energizable by a low voltage direct current signal, and a non-bulky cable connecting the head to the system, said non-bulky cable including a thin conductor for carrying the low voltage direct current signal for energizing the power supply component, and a non-radio-frequency-shielded conductor for conducting the digitized signal to the system, said non-bulky cable being readily flexible to permit user manipulation of the head with multiple freedoms of movement from one symbol to the next.
17. The laser scanning head as defined in claim 1, wherein the sensor means includes a pair of photodiodes mounted in spaced-apart relationship on the housing, said photodiodes having overlapping zones of coverage for an enlarged field of view.
18. The laser scanning head as defined in claim 1, wherein the light source includes a multi-mode laser tube for generating a laser light beam with an axial cross-sectional beam spot characterized by a non-uniform brightness characteristic which varies with time; and wherein the optic means includes an optical train in the light path of the variable brightness light beam and operative for optically modifiying the latter to produce a beam spot whose axial cross-sectional size is generally maintained in the vicinity of the reference plane over a working distance.
19. The laser scanning head as defined in claim 18, wherein the optical train includes a beam expander negative lens and an objective positive lens to thereby produce a generally circular beam spot.
20. The laser scanning head as defined in claim, wherein the light source includes a semiconductor laser diode for generating the laser light beam.
21. The laser scanning head as defined in claim 20, wherein the laser diode has a generally elongated laser-emitting aperture for generating the laser light beam with an axial cross-sectional beam spot which is generally elongated in configuration; and wherein the scanning means is operative for sweeping the elongated beam spot lengthwise across the symbol such that the longer dimension of the elongated beam spot is aligned generally perpendicularly to the sweeping direction.
22. The laser scanning head as defined in claim 21, wherein the elongated beam spot measures about six mils in height and one mil in width.
23. The laser scanning head as defined in claim 20, wherein the power supply means includes a low voltage power supply for energizing the laser diode.
24. The laser scanning head as defined in claim 1, wherein the scanning means includes a high-speed scanning motor having an oscillating output shaft, light-reflecting means mounted on the oscillating shaft and positioned in the light path, and motor control means for driving the motor to reciprocally turn the oscillating shaft in a predetermined cyclical manner in alternate circumferential directions over arc lengths which are less than 360°, for thereby moving the laser light beam over a field of view which extends across a bar code symbol to be scanned.
25. The laser scanning head as defined in claim 24, wherein the scanning motor includes a rotor operatively connected to the oscillating shaft and a pair of stator coil windings; and wherein the motor control means includes reference means for applying a generally constant DC voltage to one of the stator windings, and variable means for applying a periodic voltage of time-varying amplitude to the other of the stator windings; and wherein the motor control means moves the shaft to a position which corresponds to the amplitude of the periodic voltage, and at a speed which corresponds to the rate of change of the periodic voltage.
26. The laser scanning head as defined in claim 25, wherein the periodic voltage has positive- and negative-sloped sections, and wherein the motor control means moves the oscillating shaft in the requisite circumferential direction which corresponds to the slope of the periodic voltage.
27. The laser scanning head as defined in claim 25, wherein the periodic voltage has a triangular waveform characteristic.
28. The laser scanning head as defined in claim 25, wherein the control means includes pre-set means for adjusting the voltage level of the DC voltage applied to said one stator winding.
29. The laser scanning head as defined in claim 25, wherein the control means further includes feedback means electrically connected to said other stator winding for moving the oscillating shaft at a uniform linear rate of speed.
30. The laser scanning head as defined in claim 29; and further comprising closed loop motor control means for moving the output shaft at a substantially linear rate of speed, including energizable primary coil means, secondary coil means juxtaposed with and inductively coupled to the primary coil means, and a shield mounted on the shaft for movement therewith; and wherein said shield is located between said primary coil means and said secondary coil means for changing the inductive coupling between the former and the latter during movement of said shaft.
31. The laser scanning head as defined in claim 30, wherein said secondary coil means includes a pair of secondary coils, and wherein said closed loop motor control means includes means for sensing the change in coupling for each secondary coil, and for comparing the magnitude of each sensed coupling change to generate a difference signal which is a function of the angular displacement of the shaft.
32. The laser scanning head as defined in claim 24, wherein the motor control means further includes shutter means for turning the oscillating shaft to a shutter position in which the light-reflecting means is positioned such that transmission of the light beam through the outlet port is prevented.
33. The laser scanning head as defined in claim 32, wherein the high-speed scanning motor includes a rotor operatively connected to the oscillating shaft and a stator coil winding, and wherein the motor control means includes means for applying a periodic voltage of variable amplitude to the stator coil winding to thereby effect movement of the rotor and its associated shaft; and wherein the shutter means applies a shutter voltage of an amplitude larger than the variable amplitude of the periodic voltage, to thereby move the shaft to the shutter position.
34. The laser scanning head as defined in claim 32; and further comprising trigger means for actuating the shutter means to move the oscillating shaft to the shutter position, said trigger means being mounted on the housing.
35. The laser scanning head as defined in claim 34, wherein the housing is gun-shaped and has a handle portion for gripping by a user's hand, and a barrel portion connected to the handle portion, and wherein the trigger means is mounted on the handle portion in the vicinity of the interconnection of the latter to the barrel portion.
36. The laser scanning head as defined in claim 1; and further comprising actuatable trigger means mounted on the housing for actuating the scanning means to repetitively sweep the bar code symbol for each actuation of the trigger means.
37. The laser scanning head as defined in claim 36, wherein the trigger means is a manually-depressable switch, and wherein the scanning means sweeps the bar code symbol a number of times each time the switch is manually depressed.
38. The laser scanning head as defined in claim 36, wherein the trigger means includes timer means operatively connected to the light source means, and operative for preventing generation of the laser light beam upon elapse of a predetermined time period after the trigger means has been actuated.
39. The laser scanning head as defined in claim 1, wherein the scanning means sweeps the laser light beam signal along a predetermined direction lengthwise of the code symbol, and wherein the scanning means includes first miniature scan means for moving the laser light beam lengthwise of the symbol along the predetermined direction, and second miniature scan means for moving the laser light beam in transverse direction substantially orthogonal to the predetermined direction.
40. The laser scanning head as defined in claim 39, wherein both the first and the second scan means each include a high-speed scanning motor having an oscillating output shaft, light-reflecting means mounted on the oscillating output shaft and positioned in the light path, and motor control means for driving each motor to reciprocally turn each oscillating shaft in alternate circumferential directions over arcs which are less than 360°, for moving the laser light beam both along the predetermined and transverse directions.
41. The laser scanning head as defined in claim 40, wherein each shaft is driven linearly for generating a raster-type scan pattern comprised of a plurality of generally parallel, equidistantly spaced-apart scan lines.
42. The laser scanning head as defined in claim 41, wherein each shaft is driven sinusoidally for generating a Lissajous-type scan pattern for omni-directional scanning.
43. An entirely field-portable laser scanning system for reading bar code symbols, comprising:
(a) a light-weight, held-held, portable laser scanning head, said head having a housing of a size dimensioned to be gripped by the hand of a user, and formed with an outlet port, said housing bounding an interior space whose volume measures less than a value which is on the order of 100 cubic inches;
(b) a light source mounted in the interior space of the housing for generating a laser light beam;
(c) miniature optic means mounted in the interior space of the housing for directing the laser light beam along a light path through the outlet port and towards a bar code symbol which is located in the vicinity of a reference plane that is located exteriorly of the housing;
(d) miniature scanning means mounted in the light path and in the interior space of the housing for cyclically sweeping the laser light beam across the bar code symbol for reflection therefrom;
(e) miniature sensor means mounted in the interior space of the housing for detecting the intensity of light reflected from the bar code symbol, and for generating an electrical signal indicative of the detected intensity of the reflected light;
(f) miniature signal processing means mounted in the interior space of the housing for processing the electrical signal to generate therefrom data descriptive of the bar code symbol;
(g) all of said light source, optic means, scanning means, sensor means and signal processing means together with said housing comprising the light-weight laser scanning head whose total weight measures less than a value which is on the order of two and one-half pounds, to thereby constitute a laser scanning head which is convenient to manually hold and use;
(h) a harness supported by the body of the user;
(i) miniature data decoder means mounted on the harness for decoding the data generated by the signal processing means;
(j) miniature storage means mounted on the harness for storing the decoded data;
(k) rechargeable battery means mounted on the harness for supplying power; and
(l) a non-bulky electrical cable having one end mounted on the head and its other end mounted on the harness, said cable accommodating itself to span the distance between the harness and the head as the latter is moved from one symbol to another without requiring excessive strength by the user.
44. The field-portable laser scanning system as defined in claim 43, wherein the body harness is a belt.
45. In a laser scanning system for reading bar code symbols, a light-weight easy-to-manipulate laser scanning head normally supportable only by a user throughout the reading of the symbols, comprising:
(a) a housing having wall portions bounding an outlet port and bounding an interior space whose volume measures less than a value which is on the order of 100 cubic inches;
(b) a light source mounted in the interior space of the housing for generating a laser light beam;
(c) miniature optic means mounted in the interior space of the housing for directing the laser light beam along a light path through the outlet port and towards a bar code symbol which is located exteriorly of the housing by a distance sufficient to permit the user to conveniently register the laser light beam on the symbol by sighting the symbol along a direct line of sight which does not pass through the housing;
(d) miniature scanning means mounted in the light path and in the interior space of the housing for cyclically sweeping the laser light beam across the bar code symbol for reflection therefrom;
(e) miniature sensor means mounted in the interior space of the housing for detecting the intensity of light reflected from the bar code symbol, and for generating an electrical signal indicative of the detected intensity of the reflected light;
(f) miniature signal processing means mounted in the interior space of the housing for processing the electrical signal to generate therefrom data descriptive of the bar code symbol;
(g) power supply means operatively connected to, and supplying power for, the light source, scanning means, sensor means and signal processing means, said power supply means including a direct current power supply component mounted in the interior space of the housing and energizable by a low voltage direct current signal, and a non-bulky cable connecting the head to the system, said non-bulky cable including a thin conductor for carrying the low voltage direct current signal for energizing the power supply component, and being readily flexible to permit user manipulation of the head with multiple freedoms of movement from one symbol to the next; and
(h) all of said light source, optic means, scanning means, sensor means, signal processing means and power supply component together with said housing comprising the lightweight laser scanning head whose total weight measures less than a value which is on the order of two pounds for permitting the head to be normally supported in non-contacting relationship with the symbol during reading thereof.
46. In a laser scanning system for reading bar code symbols, a light-weight, easy-to-manipulate laser scanning head normally supportable only by a user throughout the reading of the symbols, comprising:
(a) a housing having wall portions bounding an outlet port and bounding an interior space whose volume measures less than a value which is on the order of 100 cubic inches;
(b) a light source mounted in the interior space of the housing for generating a laser light beam;
(c) miniature optic means mounted in the interior space of the housing for directing the laser light beam along a light path through the outlet port and towards a bar code symbol which is located exteriorly of the housing by a distance sufficient to permit the user to conveniently register the laser light beam on the symbol by sighting the symbol along a direct line of sight which does not pass through the housing;
(d) miniature scanning means mounted in the light path and in the interior space of the housing for cyclically sweeping the laser light beam across the bar code symbol for reflection therefrom;
(e) miniature sensor means mounted in the interior space of the housing for detecting the intensity of light reflected from the bar code symbol, and for generating an analog electrical signal indicative of the detected intensity of the reflected light;
(f) miniature signal processing means mounted in the interior space of the housing for processing the analog electrical signal to a digitized electrical signal to generate therefrom data descriptive of the bar code symbol;
(g) power supply means operatively connected to, and supplying power for, the light source, scanning means, sensor means and signal processing means, said power supply means including a non-bulky cable connecting the head to the system, said non-bulky cable including a non-radio-frequency-shielded conductor for conducting the digitized signal to the system, and being readily flexible to permit user manipulation of the head with multiple freedoms of movement from one symbol to the next; and
(h) all of said light source, optic means, scanning means, sensor means and signal processing means together with said housing comprising the light-weight laser scanning head whose total weight measures less than a value which is on the order of two pounds for permitting the head to be normally supported in non-contacting relationship with the symbol during reading thereof.
US061257681980-02-291980-02-29Portable laser scanning system and scanning methodsExpired - LifetimeUS4387297B1 (en)

Priority Applications (20)

Application NumberPriority DateFiling DateTitle
US06125768US4387297B1 (en)1980-02-291980-02-29Portable laser scanning system and scanning methods
GB8106022AGB2070832B (en)1980-02-291981-02-26Portable laser scanning system and scanning methods
CA000371938ACA1154872A (en)1980-02-291981-02-27Portable laser scanning system and scanning methods
FR8103938AFR2477302B1 (en)1980-02-291981-02-27 PORTABLE LASER EXPLORATION FACILITY AND EXPLORATION METHODS
JP2929281AJPS56140467A (en)1980-02-291981-02-28Portable laser scanning system and method
DE3153253ADE3153253C2 (en)1980-02-291981-03-02
IT20091/81AIT1138713B (en)1980-02-291981-03-02 PORTABLE LASER SCANNING SYSTEM AND RELATED SCANNING PROCEDURE
DE3107922ADE3107922C2 (en)1980-02-291981-03-02 Handheld scanner for capturing bar code symbols
US06/321,934US4496831A (en)1980-02-291981-11-16Portable laser scanning system and scanning methods
CA000431959ACA1173103A (en)1980-02-291983-07-06Portable laser scanning system and scanning method
US06/543,878US4593186A (en)1980-02-291983-10-20Portable laser scanning system and scanning methods
GB08328690AGB2134679B (en)1980-02-291983-10-27Light beam scanning device for scanning bar code symbols in laser scanning systems
SG752/87ASG75287G (en)1980-02-291987-09-19Portable laser scanning system and scanning methods
HK525/88AHK52588A (en)1980-02-291988-07-14Portable laser scanning system and scanning methods
JP2073167AJPH02282879A (en)1980-02-291990-03-22Portable bar code reader
JP2073165AJPH02288987A (en)1980-02-291990-03-22Optical scanner
JP2073168AJPH02282880A (en)1980-02-291990-03-22Handheld bar code reader
JP2073166AJPH02288988A (en)1980-02-291990-03-22Laser sanner
JP2073164AJPH02288986A (en)1980-02-291990-03-22Hand-held laser scanner
JP2201601AJPH0380386A (en)1980-02-291990-07-31Portable type laser scanner

Applications Claiming Priority (1)

Application NumberPriority DateFiling DateTitle
US06125768US4387297B1 (en)1980-02-291980-02-29Portable laser scanning system and scanning methods

Related Child Applications (2)

Application NumberTitlePriority DateFiling Date
US06/321,934DivisionUS4496831A (en)1980-02-291981-11-16Portable laser scanning system and scanning methods
US06378919Division1982-05-17

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US4387297Atrue US4387297A (en)1983-06-07
US4387297B1 US4387297B1 (en)1995-09-12

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JP (7)JPS56140467A (en)
CA (1)CA1154872A (en)
DE (2)DE3153253C2 (en)
FR (1)FR2477302B1 (en)
GB (2)GB2070832B (en)
HK (1)HK52588A (en)
IT (1)IT1138713B (en)
SG (1)SG75287G (en)

Cited By (337)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US4460120A (en)*1982-01-251984-07-17Symbol Technologies, Inc.Narrow bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US4575625A (en)*1983-09-271986-03-11Knowles Carl HIntegral hand-held laser scanner
US4652732A (en)*1985-09-171987-03-24National Semiconductor CorporationLow-profile bar code scanner
US4652750A (en)*1983-08-221987-03-24Optel Systems IncOptical device for detecting coded symbols
US4665529A (en)*1986-05-191987-05-12Spectra-Physics, Inc.Laser diode pumped solid state laser with miniaturized quick disconnect laser head
US4672215A (en)*1986-02-271987-06-09Spectra-Physics, Inc.Hand held laser bar code reader with safety shutoff responsive to housing motion detector
US4673805A (en)*1982-01-251987-06-16Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable scanning head for reading bar code symbols
EP0194115A3 (en)*1985-02-281987-08-12Symbol Technologies, Inc.Portable laser diode scanning head
US4694182A (en)*1986-02-271987-09-15Spectra-Physics, Inc.Hand held bar code reader with modulated laser diode and detector
US4721860A (en)*1984-09-201988-01-26Skan-A-Matic Corp.Laser scanner for bar code reader
US4758717A (en)*1982-01-251988-07-19Symbol Technologies, Inc.Narrow-bodied, single-and twin-windowed portable laser scanning head for reading bar code symbols
US4766298A (en)*1986-11-101988-08-23Ncr CorporationLow-profile portable UPC optical scanner
US4766297A (en)*1987-01-081988-08-23Recognition Equipment IncorporatedDual mode stationary and portable scanning system
US4805175A (en)*1987-12-031989-02-14Metrologic Instrumetns, Inc.Ultra-compact, hand-held laser scanner
US4820911A (en)*1986-07-111989-04-11Photographic Sciences CorporationApparatus for scanning and reading bar codes
WO1989004016A1 (en)*1987-10-221989-05-05Zengrange LimitedData collection
US4845350A (en)*1982-01-251989-07-04Symbol Technologies, Inc.Narrow-bodied, single-and twin-windowed portable laser scanning head for reading bar code symbols
US4897532A (en)*1985-02-281990-01-30Symbol Technologies, Inc.Portable laser diode scanning head
USD305884S (en)1988-12-091990-02-06Symbol Technologies, Inc.Hand-held laser scanning terminal
USD305885S (en)1988-06-241990-02-06Symbol Technologies, Inc.Hand-held optical scanner
USD307138S (en)1987-09-291990-04-10Metrologic Instruments, Inc.Ultra-compact, hand-held laser scanner
US4923281A (en)*1988-11-011990-05-08Symbol Technologies Inc.Laser diode focusing module, method of fabricating, and method of using
US4930848A (en)*1989-01-261990-06-05Metrologic Instruments, Inc.Portable laser scanner with integral scanner engine
US4958894A (en)*1989-01-231990-09-25Metrologic Instruments, Inc.Bouncing oscillating scanning device for laser scanning apparatus
US4962980A (en)*1989-01-231990-10-16Metrologic Instruments, Inc.Laser scanner engine with folded beam path
EP0341717A3 (en)*1988-05-111990-10-24Symbol Technologies, Inc.Mirrorless scanners with movable lase, optical and sensor components
US4969153A (en)*1989-07-241990-11-06Ncr CorporationLaser tube and power supply
WO1990013875A1 (en)*1989-05-081990-11-15Mars IncorporatedMethod and apparatus for variable speed scanning of bar codes
US4978226A (en)*1988-03-111990-12-18Minolta Camera Kabushiki KaishaDigital color copying machine for composing and controlling the color of a composed image
US4983818A (en)*1989-01-301991-01-08Metrologic Instruments, Inc.Data acquisition system with laser scanner module
US4992717A (en)*1989-07-191991-02-12Symbol Technologies, Inc.Stepper motor drive circuit
US5003164A (en)*1989-10-301991-03-26Symbol Technologies Inc.Portable laser scanning system and scanning methods having a motor amplitude regulator circuit
US5015833A (en)*1988-10-311991-05-14Symbol Technologies, Inc.Scan board module for laser scanners
US5017765A (en)*1982-01-251991-05-21Symbol Technologies, Inc.Hand held bar code scanner with automatic scanner deenergization
US5019764A (en)*1989-03-131991-05-28Symbol Technologies, Inc.Portable laser scanning system and scanning methods having a resonant motor control circuit
US5021642A (en)*1981-12-281991-06-04Norand CorporationInstant portable bar code reader
EP0433593A2 (en)1989-11-201991-06-26Symbol Technologies, Inc.Bar code symbol readers with edge enhancement
US5047617A (en)*1982-01-251991-09-10Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5059778A (en)*1986-09-291991-10-22Mars IncorporatedPortable data scanner apparatus
US5070293A (en)*1989-03-021991-12-03Nippon Soken, Inc.Electric power transmitting device with inductive coupling
US5075538A (en)*1985-02-281991-12-24Symbol Technologies Inc.Portable laser diode scanning head
US5080456A (en)*1990-02-261992-01-14Symbol Technologies, Inc.Laser scanners with extended working range
US5081343A (en)*1981-12-281992-01-14Norand CorporationInstant portable bar code reader
US5081527A (en)*1988-04-121992-01-14Minolta Camera Kabushiki KaishaDigital image forming apparatus
EP0467014A2 (en)1990-07-161992-01-22Symbol Technologies, Inc.Arrangement and method for a point-of sale site
DE4125899A1 (en)*1990-08-031992-02-06Symbol Technologies Inc SENSOR DEVICE WITH LIGHT-EMITTING DIODE
US5095197A (en)*1981-12-281992-03-10Norand CorporationInstant portable bar code reader
US5099293A (en)*1988-12-061992-03-24Minolta Camera Kabushiki KaishaImage processing apparatus operable analogue and digital copying modes
US5099110A (en)*1989-10-301992-03-24Symbol Technologies, Inc.Power saving scanning arrangement
US5117098A (en)*1989-09-291992-05-26Symbol Technologies, Inc.Multi-position trigger for control over aiming and symbol reading in a portable laser diode scanning head
US5119182A (en)*1989-02-231992-06-02Minolta Camera Kabushiki KaishaImage forming apparatus comprising sample image printing mode and image forming method therefor
US5124539A (en)*1989-06-161992-06-23Symbol Technologies, Inc.Scan pattern generators for bar code symbol readers
US5124799A (en)*1989-08-111992-06-23Minolta Camera Kabushiki KaishaDigital color copying machine for forming a plurality of images of the same image
US5126545A (en)*1990-01-161992-06-30Symbol Technologies, Inc.Portable laser scanning system having a motor drive with no DC windings
US5130520A (en)*1982-01-251992-07-14Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5132523A (en)*1990-12-101992-07-21Ncr CorporationDual mode optical scanning system
US5144121A (en)*1981-12-281992-09-01Norand CorporationInstant portable bar code reader
US5144119A (en)*1981-12-281992-09-01Norand CorporationInstant portable bar code reader
US5151581A (en)*1987-12-281992-09-29Symbol Technologies, Inc.Point-of-sale system including detachable infinitely adjustable optical scanner with selection of scan pattern
US5165071A (en)*1988-07-201992-11-17Minolta Camera Kabushiki KaishaDigital color copying machine
US5168149A (en)*1989-10-301992-12-01Symbol Technologies, Inc.Scan pattern generators for bar code symbol readers
US5168148A (en)*1990-12-281992-12-01Symbol Technologies, Inc.Automatic gain control circuit
US5180904A (en)*1982-01-251993-01-19Symbol Technologies, Inc.Bar code scanner with automatic de-activation of scan upon bar code recognition
US5182441A (en)*1981-12-281993-01-26Norand CorporationInstant portable bar code reader
US5182638A (en)*1988-11-081993-01-26Minolta Camera Kabushiki KaishaDigital color copying machine comprising a test mode for making a color adjustment
US5187355A (en)*1981-12-281993-02-16Norand CorporationInstant portable bar code reader
US5187356A (en)*1981-12-281993-02-16Norand CorporationInstant portable bar code reader
US5187353A (en)*1990-04-181993-02-16Symbol Technologies, Inc.Bar code symbol scanner utilizing monitor photodiode of laser diode package as a photoreceiver
US5188370A (en)*1990-12-271993-02-23Vlahos Mary EGame cards in multiple form and a container/dispenser device
US5189291A (en)*1989-05-011993-02-23Symbol Technologies, Inc.Bar code reader operable as remote scanner or with fixed terminal
US5191197A (en)*1988-05-111993-03-02Symbol Technologies, Inc.Arm mounted scanner actuatable by hand movement
US5196683A (en)*1991-04-081993-03-23Symbol Technologies, Inc.Bar code acquisition utilizing moire patterns
US5202784A (en)*1992-01-101993-04-13Spectra-Physics Scanning Systems, Inc.Optical system for data reading applications
US5206492A (en)*1989-10-301993-04-27Symbol Technologies, Inc.Bar code symbol scanner with reduced power usage to effect reading
US5218191A (en)*1981-12-281993-06-08Norand CorporationInstant portable bar code reader
US5229591A (en)*1988-10-211993-07-20Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5233170A (en)*1990-04-181993-08-03Symbol Technologies, Inc.Bar code symbol scanner utilizing monitor photodiode of laser diode package as a photoreceiver
US5233172A (en)*1981-12-281993-08-03Norand CorporationInstant portable bar code reader
US5235167A (en)*1988-10-211993-08-10Symbol Technologies, Inc.Laser scanning system and scanning method for reading bar codes
US5250791A (en)*1990-04-091993-10-05Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5258605A (en)*1990-03-131993-11-02Symbol Technologies, Inc.Scan generators for bar code reader using linear array of lasers
US5258606A (en)*1981-12-281993-11-02Norand CorporationInstant portable bar code reader
US5260553A (en)*1990-09-171993-11-09Metrologic Instruments, Inc.Automatic hand-supportable laser bar code symbol scanner and method of reading bar code symbols using the same
US5262627A (en)*1989-10-301993-11-16Symbol Technologies, Inc.Scanning arrangement and method
US5262626A (en)*1989-12-061993-11-16Symbol Technologies, Inc.Decoding bar codes from multiple scans using element replacement
US5262628A (en)*1982-01-251993-11-16Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5264956A (en)*1992-04-301993-11-23Silitek CorporationScanner mounting hardware
US5266787A (en)*1991-01-111993-11-30Symbol Technologies, Inc.Laser scanner using two scan motors independently controlled by a single signal
US5268564A (en)*1990-08-031993-12-07Symbol Technologies, Inc.Bar code scanner actuated by detection of scanner motion
US5278398A (en)*1990-01-051994-01-11Symbol Technologies, Inc.Decoding bar code symbols by determining the best alignment of partial scans
US5280163A (en)*1992-06-261994-01-18Symbol Technologies, Inc.Drive circuit for resonant motors
US5280162A (en)*1991-12-231994-01-18Symbol Technologies, Inc.Object sensing system for bar code laser scanners
US5288985A (en)*1981-12-281994-02-22Norand CorporationInstant portable bar code reader
US5295014A (en)*1992-11-121994-03-15The Whitaker CorporationTwo-dimensional laser beam scanner using PVDF bimorph
US5302812A (en)*1991-12-231994-04-12Symbol Technologies, Inc.Laser scanning device with automatic range and spot size adjustment
US5304788A (en)*1988-10-311994-04-19Symbol Technologies, Inc.Laser diode scanner with enhanced visibility at an aiming distance relative to the reading distance
US5315097A (en)*1991-11-291994-05-24Ncr CorporationMethod and apparatus for operating a triggerless hand-held optical scanner
US5315095A (en)*1993-02-181994-05-24Symbol Technologies, Inc.Beam with extended confinement for scanning purposes
US5324924A (en)*1992-05-111994-06-28Symbol Technologies, Inc.Bar code decoder with changeable working ranges
US5335170A (en)*1992-09-041994-08-02Comtec Information Systems, Inc.Modular system for inventory control
US5340973A (en)*1990-09-171994-08-23Metrologic Instruments, Inc.Automatic laser scanning system and method of reading bar code symbols using same
US5340971A (en)*1990-09-171994-08-23Metrologic Instruments, Inc.Automatic bar code reading system having selectable long range and short range modes of operation
US5343025A (en)*1992-01-071994-08-30Tokyo Electric Co., Ltd.Check-out device with activity sensor terminating article input
US5367151A (en)*1989-10-301994-11-22Symbol Technologies, Inc.Slim scan module with interchangeable scan element
US5371348A (en)*1992-10-161994-12-06Khyber Technologies CorporationPortable device for handsfree data entry with variably-positionable display/scanner module detachable for handheld use
US5373148A (en)*1989-10-301994-12-13Symbol Technologies, Inc.Optical scanners with scan motion damping and orientation of astigmantic laser generator to optimize reading of two-dimensionally coded indicia
US5374817A (en)*1988-05-111994-12-20Symbol Technologies, Inc.Pre-objective scanner with flexible optical support
US5378882A (en)*1992-09-111995-01-03Symbol Technologies, Inc.Bar code symbol reader with locking cable connector assembly
US5386107A (en)*1991-12-231995-01-31Symbol Technologies, Inc.Scanning arrangement and method in which the focus is varied in operative correlation with the scanning angle
US5396054A (en)*1989-03-011995-03-07Symbol Technologies, Inc.Bar code reader using scanned memory array
US5404001A (en)*1992-10-081995-04-04Bard; SimonFiber optic barcode reader
US5412198A (en)*1989-10-301995-05-02Symbol Technologies, Inc.High-speed scanning arrangement with high-frequency, low-stress scan element
US5414250A (en)*1989-03-011995-05-09Symbol Technologies, Inc.Method and apparatus for reading two-dimensional bar code employing bit-mapped imaging
US5420876A (en)*1994-06-021995-05-30Spectra-Physics Laserplane, Inc.Gadolinium vanadate laser
US5420411A (en)*1991-06-141995-05-30Symbol Technologies, Inc.Combined range laser scanner
US5422469A (en)*1989-10-301995-06-06Symbol Technologies, Inc.Fiber optic barcode readers using purely mechanical scanner oscillation
US5440574A (en)*1994-06-021995-08-08Spectra-Physics Laserplane, Inc.Solid-state laser
US5444231A (en)*1992-07-131995-08-22Symbol Technologies, Inc.Bar code scan stitching
US5450429A (en)*1994-06-021995-09-12Spectra-Physics Laserplane, Inc.Efficient linear frequency doubled solid-state laser
US5449893A (en)*1992-04-021995-09-12Symbol Technologies, Inc.Digitizer for bar code reader
US5457308A (en)*1993-09-141995-10-10Symbol Technologies, Inc.Bar code scan stitching
US5461223A (en)*1992-10-091995-10-24Eastman Kodak CompanyBar code detecting circuitry
US5463214A (en)*1994-03-041995-10-31Welch Allyn, Inc.Apparatus for optimizing throughput in decoded-output scanners and method of using same
US5468949A (en)*1985-02-281995-11-21Symbol Technologies, Inc.Portable laser diode scanning head
US5471042A (en)*1988-05-111995-11-28Symbol Technologies, Inc.Handheld data entry terminal having dual trigger switches
US5475208A (en)*1994-01-271995-12-12Symbol Technologies, Inc.Barcode scanner having a dead zone reducing system and a multifocal length collector
US5475206A (en)*1992-02-211995-12-12Spectra-Physics Scanning Systems, Inc.Scanner assembly
US5477043A (en)*1989-10-301995-12-19Symbol Technologies, Inc.Scanning arrangement for the implementation of scanning patterns over indicia by driving the scanning elements in different component directions
US5479431A (en)*1994-06-021995-12-26Spectra-Physics Laserplane, Inc.Solid-state laser with active etalon and method therefor
US5478997A (en)*1988-10-211995-12-26Symbol Technologies, Inc.Symbol scanning system and method having adaptive pattern generation
US5479359A (en)*1993-03-171995-12-26Metcalf & Eddy, Inc.Automated data collection system for fugitive emission sources
US5479000A (en)*1989-10-301995-12-26Symbol Technologies, Inc.Compact scanning module for reading bar codes
US5479002A (en)*1988-05-111995-12-26Symbol Technologies, Inc.Bar code scanner with scanning beam and/or field of view adjustable about three mutually orthogonal axes
US5484992A (en)*1990-09-171996-01-16Metrologic Instruments, Inc.Automatic hand-supportable laser scanner with flickering laser scanning beam to improve visibility thereof and beam-symbol alignment during bar code symbol presence detection
US5486944A (en)*1989-10-301996-01-23Symbol Technologies, Inc.Scanner module for symbol scanning system
US5495097A (en)*1993-09-141996-02-27Symbol Technologies, Inc.Plurality of scan units with scan stitching
EP0700012A1 (en)1994-08-291996-03-06Symbol Technologies, Inc.A portable optical scanning system worn by a user for reading indicia of differing light reflectivity
US5504316A (en)*1990-05-081996-04-02Symbol Technologies, Inc.Laser scanning system and scanning method for reading 1-D and 2-D barcode symbols
US5510607A (en)*1993-09-281996-04-23Kabushiki Kaisha TecOptical code reader having an illumination light source emitting light for at least a preset period responsive to operation of a trigger switch
US5514861A (en)*1988-05-111996-05-07Symbol Technologies, Inc.Computer and/or scanner system mounted on a glove
US5514859A (en)*1990-10-031996-05-07Seagull Scientific Systems, Inc.Power and data interface for peripheral devices
US5521369A (en)*1994-07-251996-05-28Khyber Technologies CorporationCard shaped computer peripheral device
US5521370A (en)*1989-01-311996-05-28Norand CorporationPistol grip hand-held data terminal cooperable with communicating and recharging dock
EP0715273A2 (en)1994-08-171996-06-05Metrologic Instruments, Inc.Code symbol reading system and method for reading these code symbols, e.g. bar code symbols
US5525788A (en)*1988-10-211996-06-11Symbol Technologies Inc.System for scanning bar code symbols on moving articles using a camera and scanner
US5530233A (en)*1994-06-301996-06-25Symbol Technologies, Inc.Bar code scanner with quasi-retroreflective light collection
US5532468A (en)*1994-09-261996-07-02Allen-Bradley Company, Inc.Bar code reader for scanning an area at variable sweep angles
US5539192A (en)*1994-09-261996-07-23Allen-Bradley Company, Inc.Bar code reader mirror oscillator
US5543609A (en)*1994-10-281996-08-06Symbol Technologies, Inc.Arrangement for and method of providing shock protection and vibration isolation for a scan module
US5546217A (en)*1993-11-051996-08-13Decagon Devices, Inc.Laser scanning apparatus
US5545889A (en)*1985-02-281996-08-13Swartz; JeromePortable laser diode scanning head
US5552590A (en)*1992-09-081996-09-03Nippondenso Co., Ltd.Optical information reading apparatus having means for judging laser deterioration
US5552592A (en)*1989-10-301996-09-03Symbol Technologies, Inc.Slim scan module with dual detectors
US5561283A (en)*1988-10-211996-10-01Symbol Technologies, Inc.Laser scanning system and scanning method for reading bar codes
US5583331A (en)*1989-10-301996-12-10Symbol Technologies, Inc.Arrangement for compensating for scan line curvature
US5596446A (en)*1990-11-151997-01-21Gap Technologies, Inc.Ultra compact scanning system for a wide range of speeds, angles and field depth
US5602377A (en)*1995-03-011997-02-11Metanetics CorporationBar code dataform scanning and labeling apparatus and method
US5610387A (en)*1992-05-151997-03-11Symbol Technologies, Inc.Portable optical scanning system worn by a user for reading indicia of differing light reflectivity
US5616908A (en)*1991-09-171997-04-01Metrologic Instruments, Inc.Automatic countertop laser scanner with flickering laser scanner beam for improved visibility thereof during bar code symbol reading
US5621203A (en)*1992-09-251997-04-15Symbol TechnologiesMethod and apparatus for reading two-dimensional bar code symbols with an elongated laser line
US5625180A (en)*1987-12-211997-04-29Norand CorporationData capture system with communicating and recharging docking apparatus and hand-held data terminal means cooperable therewith
EP0770962A2 (en)1989-06-291997-05-02Symbol Technologies, Inc.Packet data communication system
EP0770970A2 (en)1989-05-011997-05-02Symbol Technologies, Inc.Laser scanning system for reading bar codes
US5627359A (en)*1991-09-171997-05-06Metrologic Instruments, Inc.Laser code symbol scanner employing optical filtering system having narrow band-pass characteristics and spatially separated optical filter elements with laser light collection optics arranged along laser light return path disposed therebetween
US5633489A (en)*1992-06-031997-05-27Symbol Technologies, Inc.Combination mouse and scanner for reading optically encoded indicia
US5635700A (en)*1994-07-271997-06-03Symbol Technologies, Inc.Bar code scanner with multi-channel light collection
EP0783157A2 (en)1996-01-051997-07-09Symbol Technologies, Inc.Simplified assembly and automatic testing of components in electro-optical systems for reading coded indicia
US5672858A (en)*1994-06-301997-09-30Symbol Technologies Inc.Apparatus and method for reading indicia using charge coupled device and scanning laser beam technology
US5672860A (en)*1987-12-211997-09-30Norand CorporationIntegrated hand-held bar code processing device capable of automatic scan and data display
US5691528A (en)*1989-10-301997-11-25Symbol Technologies Inc.Scanning system for either hand-held or stationary operation for reading 1-D or 2-D barcodes
US5705800A (en)*1996-03-051998-01-06Symbol Technologies, Inc.Laser scanner system for controlling the optical scanning of bar codes
US5708262A (en)*1992-05-151998-01-13Symbol Technologies, Inc.Miniature high speed scan element mounted on a personal computer interface card
US5706600A (en)*1994-07-081998-01-13Crimson Trace CorporationLaser sighting device for a weapon
US5717221A (en)*1994-06-301998-02-10Symbol Technologies, Inc.Multiple laser indicia reader optionally utilizing a charge coupled device (CCD) detector and operating method therefor
US5734153A (en)*1985-02-281998-03-31Symbol Technologies, Inc.Hand-held scanning head with aiming beam
US5734152A (en)*1995-05-311998-03-31Symbol Technologies, Inc.Optical scanners and signal processors therefor
US5736721A (en)*1987-12-281998-04-07Symbol Technologies, Inc.Arrangement for and method of expediting commerical product transactions at a point-of-sale site
US5742042A (en)*1994-09-261998-04-21Allen-Bradley Company, Inc.Bar code reader having a position sensor in communication with a raster mirror
US5742043A (en)*1990-09-111998-04-21Metrologic Instruments, Inc.Body-nearable laser scanning system with programmed mode for consecutively reading bar code symbols without system reactivation
US5744790A (en)*1996-01-251998-04-28Symbol Technologies, Inc.Split optics focusing apparatus for CCD-based bar code scanner
US5750975A (en)*1995-08-251998-05-12Teletransactions, Inc.Hand held bar code dataform reader having a rotatable reading assembly
US5778133A (en)*1994-04-291998-07-07Geo Labs, Inc.Nonimaging light collector
US5796091A (en)*1993-11-241998-08-18Metrologic Instruments, Inc.Automatic hand-supportable omnidirectional laser projection scanner with handle-controllable projection axis
US5796088A (en)*1995-08-151998-08-18Teletransactions, Inc.Hand held portable bar code dataform reader having a rotatable reader module portion
US5798512A (en)*1988-05-111998-08-25Symbol Technologies, Inc.Hand-held terminal with movable window
US5798515A (en)*1996-04-031998-08-25Symbol Technologies, Inc.Optical scanner with fast zoom capability and scanning system
US5811785A (en)*1988-10-211998-09-22Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5811787A (en)*1996-12-091998-09-22Symbol Technologies, Inc.Two-dimensional bar code symbology using implicit version information encoding
US5821519A (en)*1993-09-141998-10-13Symbol Technologies, Inc.Bar code scan stitching
US5821522A (en)*1996-04-031998-10-13Symbol Technologies, Inc.Optical scanner with high speed zoom capability
US5825617A (en)*1992-10-021998-10-20Teletransactions, Inc.Workslate computer having modular device docking stations on horizontal and vertical side portions
US5825013A (en)*1989-10-301998-10-20Symbol Technologies, Inc.Electromagnetically activated scanner with suspended scanner component
US5828050A (en)*1990-08-031998-10-27Symbol Technologies, Inc.Light emitting laser diode scanner
US5835984A (en)*1996-01-251998-11-10Symbol Technologies, Inc.Optical scanner employing smart pixel array
US5844227A (en)*1993-11-241998-12-01Metrologic Instruments, Inc.Automatic hand-supportable omnidirectional laser projection scanner with scan-head directed projection axis for intuitive hand-supported omnidirectional scanning of bar code symbols within a narrowly confined scanning volume extending thereabout
US5861615A (en)*1990-05-081999-01-19Symbol Technologies, Inc.Palm scanner
US5866894A (en)*1988-10-211999-02-02Symbol Technologies, Inc.Electro-optical scanner module having oscillating lens
US5870219A (en)*1997-01-201999-02-09Geo. Labs, Inc.Ultra compact scanning system for a wide range of speeds, angles and field depth
US5873070A (en)*1995-06-071999-02-16Norand CorporationData collection system
US5883375A (en)*1991-09-171999-03-16Metrologic Instruments, Inc.Bar code symbol scanner having fixed and hand-held modes
WO1999014705A1 (en)*1997-09-161999-03-25Metrologic Instruments, Inc.Bar code symbol reading system
US5888087A (en)*1989-01-311999-03-30Norand CorporationOne-handed dock for a portable data collection terminal
US5914480A (en)*1990-05-291999-06-22Symbol Technologies, Inc.Scanning device formed from integrated components on a semiconductor substrate
US5942743A (en)*1994-08-171999-08-24Metrologic Instruments, Inc.Portable automatic hand-supportable omnidirectional laser projection scanner with power conserving control system
US5949068A (en)*1997-10-071999-09-07Telxon CorporationOptical reader for scanning optical indicia by way of varying object distance
US5959286A (en)*1994-05-181999-09-28Symbol Technologies, Inc.Method and apparatus for raster scanning of images
US5959285A (en)*1996-10-161999-09-28Symbol Technologies, Inc.Two-dimensional bar code symbology using gray code encodation scheme
EP0945818A2 (en)1998-03-241999-09-29Symbol Technologies, Inc.Bar code reader for portable computers
US5992750A (en)*1981-12-281999-11-30Intermec Ip Corp.Instant portable bar code reader
US6000615A (en)*1996-01-111999-12-14Webscan, Inc.Methods for scanning a succession of bar code symbols
US6000619A (en)*1992-02-211999-12-14Spectra-Physics Scanning Systems, Inc.Scanner assembly
US6005255A (en)*1994-05-181999-12-21Symbol Technologies, Inc.Timing synchronization for image scanning
US6015090A (en)*1992-06-122000-01-18Symbol Technologies, Inc.Hand mountable adaptive barcode scanner
US6017496A (en)*1995-06-072000-01-25IroriMatrices with memories and uses thereof
US6024283A (en)*1995-02-272000-02-15Symbol Technologies, Inc.Bar code readers having selectable optical elements
US6036098A (en)*1992-05-152000-03-14Symbol Technologies, Inc.Miniature scan element operably connected to a personal computer interface card
US6036093A (en)*1992-04-232000-03-14Intermec Ip Corp.Modular scanner with hand-held data terminal
US6047892A (en)*1996-12-092000-04-11Symbol Technologies, Inc.Two-dimensional bar code symbology using implicit version information encoding
US6057554A (en)*1997-05-122000-05-02Plesko; George A.Reflective switch
US6058000A (en)*1990-07-312000-05-02Intermec Ip Corp.Method and apparatus for electromagnetic shielding and electrostatic discharge protection
US6059188A (en)*1993-10-252000-05-09Symbol TechnologiesPackaged mirror including mirror travel stops
US6065678A (en)*1996-01-252000-05-23Symbol Technologies, Inc.Bar code scanner having a focusing system
US6073848A (en)*1998-05-182000-06-13Symbol Technologies, Inc.Digital automatic gain control for multi-stage amplification circuits
US6078698A (en)*1999-09-202000-06-20Flir Systems, Inc.System for reading data glyphs
US6082621A (en)*1992-04-022000-07-04Symbol Technologies, Inc.Interface between threshold processing digitizer for bar code reader
US6093962A (en)*1998-01-292000-07-25Olympus Optical Co., Ltd.High frequency shielding case of semiconductor laser
US6098877A (en)*1997-05-212000-08-08Symbol Technologies, Inc.Interface and method for controlling an optical reader having a scanning module
US6118569A (en)*1990-11-152000-09-12Plesko; George A.Ultra compact scanning system for a wide range of speeds, angles and field depth
US6119938A (en)*1998-06-172000-09-19Motorola, Inc.Optical code reader having a controllable amplifier and methods therefor
US6119944A (en)*1997-02-032000-09-19Symbol Technologies, Inc.Down-loadable hand-held optical reader
US6126075A (en)*1998-06-042000-10-03Motorola, Inc.Optical code reader including circuitry for processing the read symbology
US6164540A (en)*1996-05-222000-12-26Symbol Technologies, Inc.Optical scanners
US6170749B1 (en)1995-05-312001-01-09Symbol Technologies, Inc.Method of scanning indicia using selective sampling
US6189793B1 (en)*1992-06-122001-02-20Metrologic Instruments, Inc.Automatic laser projection scanner with improved activation controlling mechanism
US6215475B1 (en)1992-10-022001-04-10Telxon CorporationHighly integrated portable electronic work slate unit
US6225641B1 (en)1997-10-072001-05-01Telxon CorporationOptical reader for scanning optical indicia by movement of an aperture relative to an image plane
US6234395B1 (en)1981-12-282001-05-22Intermec Ip Corp.Instant portable bar code reader
US6234396B1 (en)*1996-02-202001-05-22Opticon, Inc.Optical pattern reading apparatus
US6257492B1 (en)1990-09-102001-07-10Peter BresslerCombination hand-held and counter-top omni-directional scanner
US6260760B1 (en)*1998-06-172001-07-17Motorola, Inc.Optical code reader including circuitry for processing the symbology
US6266045B1 (en)1994-06-302001-07-24Telxon CorporationInteractive display user interface computer and method
US6283375B1 (en)1990-09-102001-09-04Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US6286760B1 (en)1994-08-172001-09-11Metrologic Instruments, Inc.Automatic hand-supportable laser projection scanner for omni-directional reading of bar code symbols within a narrowly confined scanning volume
US6299067B1 (en)1993-11-242001-10-09Metrologic Instruments, Inc.Bar code scanner with intuitive head aiming and collimated scan volume
US6318631B1 (en)1998-04-132001-11-20Eldat Communication Ltd.Scanning communicator
US6328211B1 (en)1990-09-172001-12-11Metrologic Instruments, Inc.Automatic hand-supportable laser bar code symbol scanner and method of reading bar code symbols using the same
US6329139B1 (en)1995-04-252001-12-11Discovery Partners InternationalAutomated sorting system for matrices with memory
US20020000470A1 (en)*1993-05-282002-01-03Michael LanzaroPortable data collection system
US6375074B1 (en)1994-08-172002-04-23Metrologic Instruments, Inc.Holographic laser scanner for producing a highly-defined three-dimensional scanning volume having multiple focal regions within which the laser scanlines are spatially confined
US6415978B1 (en)1999-05-032002-07-09Psc Scanning, Inc.Multiple technology data reader for bar code labels and RFID tags
USD460068S1 (en)2000-03-272002-07-09Symbol Technologies, Inc.Portable handheld terminal housing
US6454167B1 (en)*1985-02-282002-09-24Symbol Technologies, Inc.Laser focusing aperture and method
US6478225B1 (en)1988-10-212002-11-12Symbol Technologies, Inc.Adaptive bar code scanner
US20030019938A1 (en)*1990-09-102003-01-30Metrologic Instruments, Inc.Counter-top scanner with bump protection mechanism and scan angle adjustment mechanism
US6533168B1 (en)1999-05-272003-03-18Peter N. ChingMethod and apparatus for computer-readable purchase receipts using multi-dimensional bar codes
US6543693B1 (en)1995-02-272003-04-08Symbol Technologies, Inc.Bar code readers using surface emitting laser diode
US6578767B1 (en)1999-07-162003-06-17Symbol Technologies, Inc.Low cost bar code reader
US6595427B1 (en)2000-08-312003-07-22Polaroid CorporationMethod and apparatus for encoding and decoding information in a non-visible manner
US6595420B1 (en)1990-09-102003-07-22Metrologic Instruments, Inc.Automatically-activated body-wearable laser scanning bar code symbol reading system having data-transmission activation switch
US6604684B1 (en)1993-11-242003-08-12Metrologic Instruments Inc.Automatic optical projection scanner for omni-directional reading of bar code symbols within a confined scanning volume
US6607133B2 (en)1990-09-102003-08-19Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US20030178491A1 (en)*1990-09-112003-09-25Blake Robert E.Electronically-controlled mechanically-damped off-resonant light beam scanning mechanism and code symbol readers employing the same
US6637657B2 (en)2001-04-062003-10-28Symbol Technologies, Inc.Compact scan module with magnetically centered scan mirror
US20030209604A1 (en)*1996-01-262003-11-13Harrison Shelton E.Wearable computing system, method and device
US6651890B2 (en)1990-09-102003-11-25Sung Ho ByunCombination hand-held and counter-top omnidirectional scanner
US20040026512A1 (en)*2002-04-232004-02-12Yusuke OtsuboOptical unit for optical symbol reader
US20040046031A1 (en)*1990-09-172004-03-11Metrologic Instruments, Inc.Bar code scanning system with wireless communication links
US6742709B2 (en)1990-09-112004-06-01Metrologic Instruments, Inc.Bar code symbol reading system employing electronically-controlled raster-type laser scanner for reading bar code symbols during hands-on and hands-free modes of operation
US6770186B2 (en)2001-11-132004-08-03Eldat Communication Ltd.Rechargeable hydrogen-fueled motor vehicle
US20040173684A1 (en)*1998-12-032004-09-09Metrologic Instruments, Inc.Automatically-activated hand-supportable omni-directional laser scanning bar code symbol reader having a user-selectable linear scanning menu-reading mode supported by a stroboscopically-pulsed omni-directional laser scanning pattern for improved bar code symbol navigation and alignment during menu-reading operations
US20040197046A1 (en)*2003-04-022004-10-07Drost Robert J.Optical communication between face-to-face semiconductor chips
US20040206825A1 (en)*1998-12-032004-10-21Metrologic Instruments, Inc.Wireless bar code symbol driven portable data terminal ( PDT) system adapted for single handed operation
US20050001036A1 (en)*1997-09-162005-01-06Metrologic Instruments, Inc.Bar code symbol reading system employing electronically-controlled raster-type laser scanner for reading bar code symbols during hands-on and hands-free modes of operation
US20050017077A1 (en)*2003-07-232005-01-27Sudhir BhatiaMobile terminal with ergonomic housing
US20050023356A1 (en)*2003-07-292005-02-03Microvision, Inc., A Corporation Of The State Of WashingtonMethod and apparatus for illuminating a field-of-view and capturing an image
US6853293B2 (en)1993-05-282005-02-08Symbol Technologies, Inc.Wearable communication system
US20050040238A1 (en)*2002-01-112005-02-24Metrologic Instruments, Inc.Counter-top scanner with bump protection mechanism and scan angle adjustment mechanism
US6860427B1 (en)1993-11-242005-03-01Metrologic Instruments, Inc.Automatic optical projection scanner for omni-directional reading of bar code symbols within a confined scanning volume
US20050077359A1 (en)*2003-10-082005-04-14Thomas BoehmSystem and method for configuring an omnidirectional scanner
US20050082371A1 (en)*1998-12-032005-04-21Metrologic Instruments, Inc.Automatically-activated wireless hand-supportable laser scanning bar code symbol reading system with data transmission activation switch and automatic communication range dependent control
US20050127185A1 (en)*1990-09-172005-06-16Wilz David M.Sr.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US6915954B2 (en)1999-06-072005-07-12Metrologic Instruments, Inc.Programmable data element queuing, handling, processing and linking device integrated into an object identification and attribute acquisition system
US20050150959A1 (en)*2004-01-092005-07-14John IzzoOptical reader
US20050211782A1 (en)*1998-12-032005-09-29William MartinAutomatically-activated hand-supportable laser scanning bar code symbol reading system with omnidirectional and unidirectional scanning modes in addition to a data transmission activation switch
US20060043192A1 (en)*2004-08-312006-03-02Symbol Technologies, Inc.Transmitting enhanced scanner signals on a single channel
US7074509B2 (en)2001-11-132006-07-11Eldat Communication Ltd.Hydrogen generators for fuel cells
EP1686730A1 (en)1990-12-282006-08-02Symbol Technologies, Inc.Packet data communication system with acknowledgement
US20060192011A1 (en)*2005-02-252006-08-31Symbol Technologies, Inc.Bar code signal processing
US7104453B1 (en)1999-06-072006-09-12Metrologic Instruments, Inc.Unitary package identification and dimensioning system employing ladar-based scanning methods
US20060261168A1 (en)*2005-05-202006-11-23Polaroid CorporationPrint medium feature encoding and decoding
US20060266840A1 (en)*2005-05-312006-11-30Symbol Technologies, Inc.Feedback mechanism for scanner devices
US20060290774A1 (en)*2005-06-242006-12-28Carl WittenbergArrangement for, and a method of, reducing image distortion due to electrical interference
US20070159673A1 (en)*2005-11-212007-07-12Freeman Mark OSubstrate-guided display with improved image quality
US20070174916A1 (en)*2005-10-282007-07-26Ching Peter NMethod and apparatus for secure data transfer
US20070176003A1 (en)*2006-01-312007-08-02Symbol Technologies, Inc.Extended working range illumination system for an imaging-based bar code reader
EP1184803B1 (en)*2000-08-312007-10-17Symbol Technologies, Inc.Electro-optical scanning assembly with one-piece oscillatable focussing/scan element
US20070272841A1 (en)*2006-05-252007-11-29Microvision, Inc.Method and apparatus for capturing an image of a moving object
US20070284441A1 (en)*2006-06-132007-12-13Joseph WalczykMethod and apparatus for uniquely associating a bar code reading terminal to a cash register in a retail store network
US20080023551A1 (en)*2003-10-082008-01-31Thomas BoehmSystem and method for configuring an omnidirectional scanner
US7358857B1 (en)1996-03-272008-04-15Symbol Technologies, Inc.Global positioning systems applications
US7365891B2 (en)1997-04-302008-04-29Quantapoint, Inc.Method and apparatus for directing energy based range detection sensors
US7398930B2 (en)1994-03-042008-07-15Hand Held Products, Inc.Bar code reading device having image data in plurality of different formats
US20080289483A1 (en)*2006-01-272008-11-27University Of South FloridaMethod of modifying the frequency response of a wooden article
US20080317089A1 (en)*2007-06-222008-12-25Decagon Devices, Inc.Apparatus, Method, and System for Measuring Water Activity and Weight
US20090015929A1 (en)*2007-07-102009-01-15Microvision, Inc.Substrate-guided relays for use with scanned beam light sources
US20090039167A1 (en)*2007-08-102009-02-12Hand-Held Products, Inc.Indicia reading terminal having spatial measurement functionality
US20090057412A1 (en)*2007-08-302009-03-05Bhella Kenneth SDiagnosing malfunction of electro-optical reader
US20090057405A1 (en)*2007-08-302009-03-05Carl WittenbergLight collection assembly with self-retaining lens in electro-optical reader
US20090057409A1 (en)*2007-08-302009-03-05Nina FeinsteinAutomatic raster height and speed adjustment in programmable electeo-optical readers for reading two-dimensional symbols of different heights
US20090140049A1 (en)*2007-11-302009-06-04Rong LiuStray light reduction in imaging reader
US7556203B2 (en)2005-06-272009-07-07Hand Held Products, Inc.Method and system for linking a wireless hand held optical reader with a base unit or other wireless device
USD601557S1 (en)2007-08-062009-10-06Data Ltd., Inc.Tablet computer
US20100051797A1 (en)*2006-12-292010-03-04Datalogic Scanning Group S.R.L.Laser light beam scanning device for reading coded information and scanning optical element for such device
US20100100623A1 (en)*2004-04-062010-04-22Thomas WulffSystem and method for monitoring a mobile computing product/arrangement
US20100225757A1 (en)*2009-03-042010-09-09Hand Held Products, Inc.System and method for measuring irregular objects with a single camera
US7857219B2 (en)2006-05-262010-12-28Symbol Technologies, Inc.Imaging reader target object finder system
EP2275965A2 (en)1998-03-202011-01-19Symbol Technologies, Inc.Bar code reader with an integrated scanning component module mountable on printed circuit board
US20110035321A1 (en)*2004-05-142011-02-10Ching Peter NMulti-way transaction related data exchange apparatus and methods
USD635568S1 (en)2009-06-092011-04-05Data Ltd., Inc.Tablet computer
US20110084671A1 (en)*2008-04-152011-04-14Alstom Technology LtdMethod for monitoring an electrodynamic machine
US7932457B2 (en)2006-01-272011-04-26University Of South FloridaAccelerated aging process for acoustic stringed instruments
USD638834S1 (en)2009-10-052011-05-31Data Ltd., Inc.Tablet computer
USD654499S1 (en)2009-06-092012-02-21Data Ltd., Inc.Tablet computer
US20120168513A1 (en)*2010-12-302012-07-05Honeywell International Inc.Bar code imagers
US8391668B2 (en)2011-01-132013-03-05Microvision, Inc.Substrate guided relay having an absorbing edge to reduce alignment constraints
US8531773B2 (en)2011-01-102013-09-10Microvision, Inc.Substrate guided relay having a homogenizing layer
USD690296S1 (en)2011-02-012013-09-24Data Ltd., Inc.Tablet computer
US8570629B2 (en)2011-09-232013-10-29Steve SpearsReciprocating laser scanning device
US8662245B1 (en)2006-01-272014-03-04University Of South FloridaFrequency response treatment of wood paneling
US9033226B1 (en)2003-12-172015-05-19West View Research, LlcPortable computerized wireless apparatus
CN107590409A (en)*2012-05-252018-01-16计量仪器公司System is read using the laser scanning code sign of programmable decoding time window filtering
US10453047B2 (en)2013-01-132019-10-22Retail Technologies CorporationMobile scanner gun system with mobile tablet having a mobile POS and enterprise resource planning application for POS customer order fulfillment and in store inventory management for retail establishment
CN112014827A (en)*2019-05-282020-12-01度逢株式会社Object detection device
US10937013B2 (en)2013-01-132021-03-02Retail Technologies CorporationPoint of sale (POS) docking station system and method for a mobile tablet gun system with mobile tablet device
US10970674B2 (en)2013-01-132021-04-06Retailtechnologies CorporationMobile tablet gun system with mobile tablet having a mobile POS and enterprise resource planning application for POS customer order fulfillment and in-store inventory management for retail establishment
US11017097B2 (en)2004-05-142021-05-25Peter N. ChingSystems and methods for prevention of unauthorized access to resources of an information system
US20230011457A1 (en)*2021-07-072023-01-12Beijing Voyager Technology Co., Ltd.Temperature control through thermal recycle

Families Citing this family (20)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US4387297B1 (en)*1980-02-291995-09-12Symbol Technologies IncPortable laser scanning system and scanning methods
US4409470A (en)*1982-01-251983-10-11Symbol Technologies, Inc.Narrow-bodied, single-and twin-windowed portable laser scanning head for reading bar code symbols
GB8321294D0 (en)*1983-08-081983-09-07Sb Electronic Systems LtdPhotodetector
US4603262A (en)*1983-08-221986-07-29Optel Systems Inc.Optical device for detecting coded symbols
NL8303168A (en)*1983-09-141985-04-01Philips Nv DEVICE FOR READING BARS CODED INFORMATION.
GB2158991B (en)*1984-05-141988-06-02Hughes Technology Pty LtdA hand-held laser beam system
FR2565384B1 (en)*1984-05-291987-06-19Imaje Sa METHOD OF MARKING PRODUCTS IN CONNECTION WITH AN ORGANIZATION RESPONSIBLE FOR MONITORING THIS MARKING
GB8418668D0 (en)*1984-07-211984-08-22Lowe GSafety inspection monitoring system
FR2569548B1 (en)*1984-08-311987-11-13Vynex Sa AUTOMATIC AND COMPUTER REPLENISHING METHOD AND SYSTEM
JPS624045A (en)*1985-06-261987-01-10株式会社 サト− portable thermal label printer
JPH02217976A (en)*1989-02-201990-08-30Mitsubishi Motors CorpBar code reader
US5059779A (en)*1989-06-161991-10-22Symbol Technologies, Inc.Scan pattern generators for bar code symbol readers
CA2021519C (en)*1990-05-292001-09-04Jerome SwartzScanning system implemented on semiconductor or electro-optical substrate
IT1242638B (en)*1990-11-151994-05-16Hal 9000 Informatica Srl ALTERNATIVE LASER LIGHT DEFLECTOR
US5200597A (en)*1991-02-071993-04-06Psc, Inc.Digitally controlled system for scanning and reading bar codes
CA2056842A1 (en)*1991-02-071992-08-08Jay M. EastmanSystem for scanning and reading symbols, such as bar codes, which is adapted to be configured in a hand held unit and can automatically read symbols on objects which are placed inthe detection zone of the unit
JPH11338963A (en)*1998-05-291999-12-10Toshiba Tec Corp Symbol reader
WO2003036553A1 (en)*2001-10-192003-05-01Symbol Technologies, Inc.Electro-optical assembly for image projection, especially in portable instruments
JP6651111B1 (en)*2019-06-032020-02-19Dolphin株式会社 Actuator, optical scanning device, and object detection device
CN111683071B (en)*2020-05-292023-02-28百度在线网络技术(北京)有限公司Private data processing method, device, equipment and storage medium of block chain

Citations (13)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3419883A (en)*1964-05-051968-12-31Lockheed Aircraft CorpData acquisition and recording system
US3812325A (en)*1970-08-181974-05-21Chesapeake & Ohio RailwayMeans for reading and interpreting color-coded identification labels
US3899687A (en)*1972-07-101975-08-12Identicon CorpOptical label scanning
US3902048A (en)*1974-07-111975-08-26IbmOmnidirectional optomechanical scanning apparatus
US3928759A (en)*1974-08-221975-12-23Pitney Bowes IncOmnidirectional scanner for reading digitally encoded tickets
US4006343A (en)*1973-10-231977-02-01Matsushita Electric Industrial Co., Ltd.Code read-out means
US4032888A (en)*1975-12-151977-06-28The Singer CompanyNonlinear scan drive reader with variable clock correction
US4095095A (en)*1976-03-311978-06-13Tokyo Shibaura Electric Co., Ltd.Apparatus for manufacturing semiconductor devices
DE2757495A1 (en)*1976-12-271978-06-29Recognition Equipment Inc OPTICAL CHARACTER RECOGNITION SYSTEM
US4118687A (en)*1976-10-041978-10-03Recognition Equipment IncorporatedPortable OCR system
US4133034A (en)*1977-07-271979-01-02Etter Berwyn EMethod and means of assimilating utility meter data
US4158194A (en)*1976-12-271979-06-12Recognition Equipment IncorporatedOptical recognition system
US4251798A (en)*1978-05-311981-02-17Symbol TechnologiesPortable laser scanning arrangement for and method of evaluating and validating bar code symbols

Family Cites Families (33)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
FR829726A (en)*1937-11-231938-07-05Dufresne Et Deloge Magnetic induction flux electrodynamic attraction rocker
US3060319A (en)*1960-12-081962-10-23United Aircraft CorpOptical synchronizer
US3130317A (en)*1961-11-011964-04-21Avco CorpPhotosensitive luminous annular sight
US3499650A (en)*1966-02-101970-03-10Jerome H LemelsonLight projecting and sensing device and target practice apparatus
US3699312A (en)*1971-03-181972-10-17IbmCode scanning system
JPS4854830A (en)*1971-11-101973-08-01
DE2208459C2 (en)*1972-02-231974-02-14Anker-Werke Ag, 4800 Bielefeld Optical scanning device
US3812347A (en)*1972-10-031974-05-21Sigma SystemsOptical reader
US3919527A (en)*1973-07-261975-11-11IbmOmnidirectional optical scanner
JPS5322137Y2 (en)*1973-09-181978-06-09
US3952217A (en)*1973-09-251976-04-20The Perkin-Elmer CorporationDrive for scanning mirror
US3947817A (en)*1974-01-071976-03-30Recognition Equipment IncorporatedHand operated optical character recognition wand
GB1449366A (en)*1974-03-251976-09-15Plessey Co LtdOptical code reading system
US4009369A (en)*1974-05-031977-02-22Schiller Industries, Inc.Polyphase scanner for bar code symbols
US3961198A (en)*1975-04-281976-06-01Rockwell International CorporationVisually alignable sensor wand which excludes unwanted light from a sensor system
DE2537426C2 (en)*1975-08-221982-05-06MSI Data Corp., Costa Mesa, Calif. Method and reading device for the optical reading of bar-coded data
JPS5255166A (en)*1975-10-311977-05-06Tsubakimoto Chain CoMethod and apparatus for displacing scanning line, for use in automati c reading unit
DE2555466C2 (en)*1975-12-101984-09-13Recognition Equipment Inc., Irving, Tex. Device for reading alphanumeric characters
US4093865A (en)*1977-04-291978-06-06National Semiconductor CorporationCode symbol scanner using a double X bar pattern
JPS5552363Y2 (en)*1977-07-111980-12-05
JPS5423324A (en)*1977-07-231979-02-21Nippon Electric IndOptical reader
JPS5424543A (en)*1977-07-261979-02-23Nippon Denso Co LtdBar code reader
JPS5433741A (en)*1977-08-191979-03-12Sharp CorpOptical reader
JPS5487751U (en)*1977-12-021979-06-21
JPS5366330A (en)*1977-12-021978-06-13Nippon Electric IndPortable optical scanner
JPS54108620U (en)*1978-01-171979-07-31
JPS595943B2 (en)*1978-01-171984-02-08日本電気精器株式会社 optical reader
JPS54120330U (en)*1978-02-131979-08-23
JPS54132131A (en)*1978-04-051979-10-13Sumitomo Electric Ind LtdOptical information reading device
US4282431A (en)*1979-10-181981-08-04E. I. Du Pont De Nemours And CompanyBar code scanner
US4387297B1 (en)*1980-02-291995-09-12Symbol Technologies IncPortable laser scanning system and scanning methods
DE3687127T2 (en)*1985-02-281993-05-06Symbol Technologies Inc PORTABLE SCAN HEAD WITH A LASER DIODE.
JPS6360435A (en)*1986-09-011988-03-16Ricoh Co Ltd Camera control method

Patent Citations (14)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US3419883A (en)*1964-05-051968-12-31Lockheed Aircraft CorpData acquisition and recording system
US3812325A (en)*1970-08-181974-05-21Chesapeake & Ohio RailwayMeans for reading and interpreting color-coded identification labels
US3899687A (en)*1972-07-101975-08-12Identicon CorpOptical label scanning
US4006343A (en)*1973-10-231977-02-01Matsushita Electric Industrial Co., Ltd.Code read-out means
US3902048A (en)*1974-07-111975-08-26IbmOmnidirectional optomechanical scanning apparatus
US3928759A (en)*1974-08-221975-12-23Pitney Bowes IncOmnidirectional scanner for reading digitally encoded tickets
US4032888A (en)*1975-12-151977-06-28The Singer CompanyNonlinear scan drive reader with variable clock correction
US4095095A (en)*1976-03-311978-06-13Tokyo Shibaura Electric Co., Ltd.Apparatus for manufacturing semiconductor devices
US4118687A (en)*1976-10-041978-10-03Recognition Equipment IncorporatedPortable OCR system
DE2757495A1 (en)*1976-12-271978-06-29Recognition Equipment Inc OPTICAL CHARACTER RECOGNITION SYSTEM
US4158194A (en)*1976-12-271979-06-12Recognition Equipment IncorporatedOptical recognition system
US4133034A (en)*1977-07-271979-01-02Etter Berwyn EMethod and means of assimilating utility meter data
US4133034B1 (en)*1977-07-271986-08-19
US4251798A (en)*1978-05-311981-02-17Symbol TechnologiesPortable laser scanning arrangement for and method of evaluating and validating bar code symbols

Cited By (522)

* Cited by examiner, † Cited by third party
Publication numberPriority datePublication dateAssigneeTitle
US5021642A (en)*1981-12-281991-06-04Norand CorporationInstant portable bar code reader
US5233172A (en)*1981-12-281993-08-03Norand CorporationInstant portable bar code reader
US5288985A (en)*1981-12-281994-02-22Norand CorporationInstant portable bar code reader
US5218191A (en)*1981-12-281993-06-08Norand CorporationInstant portable bar code reader
US5187356A (en)*1981-12-281993-02-16Norand CorporationInstant portable bar code reader
US5258606A (en)*1981-12-281993-11-02Norand CorporationInstant portable bar code reader
US6234395B1 (en)1981-12-282001-05-22Intermec Ip Corp.Instant portable bar code reader
US5992750A (en)*1981-12-281999-11-30Intermec Ip Corp.Instant portable bar code reader
US5144121A (en)*1981-12-281992-09-01Norand CorporationInstant portable bar code reader
US5187355A (en)*1981-12-281993-02-16Norand CorporationInstant portable bar code reader
US5182441A (en)*1981-12-281993-01-26Norand CorporationInstant portable bar code reader
US5095197A (en)*1981-12-281992-03-10Norand CorporationInstant portable bar code reader
US5144119A (en)*1981-12-281992-09-01Norand CorporationInstant portable bar code reader
US5081343A (en)*1981-12-281992-01-14Norand CorporationInstant portable bar code reader
US5180904A (en)*1982-01-251993-01-19Symbol Technologies, Inc.Bar code scanner with automatic de-activation of scan upon bar code recognition
US5262628A (en)*1982-01-251993-11-16Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5581068A (en)*1982-01-251996-12-03Symbol Technologies, Inc.System for reading coded indica with increased depth of field
US4758717A (en)*1982-01-251988-07-19Symbol Technologies, Inc.Narrow-bodied, single-and twin-windowed portable laser scanning head for reading bar code symbols
US4845350A (en)*1982-01-251989-07-04Symbol Technologies, Inc.Narrow-bodied, single-and twin-windowed portable laser scanning head for reading bar code symbols
US5017765A (en)*1982-01-251991-05-21Symbol Technologies, Inc.Hand held bar code scanner with automatic scanner deenergization
US4460120A (en)*1982-01-251984-07-17Symbol Technologies, Inc.Narrow bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5047617A (en)*1982-01-251991-09-10Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5321246A (en)*1982-01-251994-06-14Symbol Technologies, Inc.Bar code scanner with RF coupling to base terminal and automatic turn-off upon decode
US4673805A (en)*1982-01-251987-06-16Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable scanning head for reading bar code symbols
US5130520A (en)*1982-01-251992-07-14Symbol Technologies, Inc.Narrow-bodied, single- and twin-windowed portable laser scanning head for reading bar code symbols
US5532469A (en)*1982-01-251996-07-02Symbol Technologies, Inc.Hand held bar code reader with input and display device and processor
US4652750A (en)*1983-08-221987-03-24Optel Systems IncOptical device for detecting coded symbols
US4575625A (en)*1983-09-271986-03-11Knowles Carl HIntegral hand-held laser scanner
US4721860A (en)*1984-09-201988-01-26Skan-A-Matic Corp.Laser scanner for bar code reader
US6454167B1 (en)*1985-02-282002-09-24Symbol Technologies, Inc.Laser focusing aperture and method
EP0367299B1 (en)*1985-02-281992-11-11Symbol Technologies, Inc.Portable laser diode scanning head
EP0367298A3 (en)*1985-02-281990-05-30Symbol Technologies, Inc.Portable laser diode scanning head
EP0367300A3 (en)*1985-02-281990-05-23Symbol Technologies, Inc.Portable laser diode scanning head
EP0194115A3 (en)*1985-02-281987-08-12Symbol Technologies, Inc.Portable laser diode scanning head
US4760248A (en)*1985-02-281988-07-26Symbol Technologies, Inc.Portable laser diode scanning head
US5734153A (en)*1985-02-281998-03-31Symbol Technologies, Inc.Hand-held scanning head with aiming beam
EP0367299A2 (en)1985-02-281990-05-09Symbol Technologies, Inc.Portable laser diode scanning head
US5589680A (en)*1985-02-281996-12-31Symbol TechnologiesPortable laser diode scanning head
US5468949A (en)*1985-02-281995-11-21Symbol Technologies, Inc.Portable laser diode scanning head
US4897532A (en)*1985-02-281990-01-30Symbol Technologies, Inc.Portable laser diode scanning head
US5075538A (en)*1985-02-281991-12-24Symbol Technologies Inc.Portable laser diode scanning head
US5545889A (en)*1985-02-281996-08-13Swartz; JeromePortable laser diode scanning head
US5021641A (en)*1985-02-281991-06-04Symbol Technologies, Inc.Hand-held bar code scanner with jointly mounted scanning mirrors
US4825057A (en)*1985-02-281989-04-25Symbol Technologies, Inc.Portable laser diode scanning head
US4652732A (en)*1985-09-171987-03-24National Semiconductor CorporationLow-profile bar code scanner
US4672215A (en)*1986-02-271987-06-09Spectra-Physics, Inc.Hand held laser bar code reader with safety shutoff responsive to housing motion detector
US4694182A (en)*1986-02-271987-09-15Spectra-Physics, Inc.Hand held bar code reader with modulated laser diode and detector
US4665529A (en)*1986-05-191987-05-12Spectra-Physics, Inc.Laser diode pumped solid state laser with miniaturized quick disconnect laser head
EP0691621A3 (en)*1986-07-111997-10-22Psc IncApparatus for scanning and reading bar codes (visible marker beam system)
US4820911A (en)*1986-07-111989-04-11Photographic Sciences CorporationApparatus for scanning and reading bar codes
EP0256296A3 (en)*1986-07-111990-01-17Optel Bar Code Systems, Inc.Apparatus for scanning and reading bar codes
US5059778A (en)*1986-09-291991-10-22Mars IncorporatedPortable data scanner apparatus
US4766298A (en)*1986-11-101988-08-23Ncr CorporationLow-profile portable UPC optical scanner
US4766297A (en)*1987-01-081988-08-23Recognition Equipment IncorporatedDual mode stationary and portable scanning system
USD307138S (en)1987-09-291990-04-10Metrologic Instruments, Inc.Ultra-compact, hand-held laser scanner
WO1989004016A1 (en)*1987-10-221989-05-05Zengrange LimitedData collection
US4805175A (en)*1987-12-031989-02-14Metrologic Instrumetns, Inc.Ultra-compact, hand-held laser scanner
US5672860A (en)*1987-12-211997-09-30Norand CorporationIntegrated hand-held bar code processing device capable of automatic scan and data display
US5625180A (en)*1987-12-211997-04-29Norand CorporationData capture system with communicating and recharging docking apparatus and hand-held data terminal means cooperable therewith
US5747785A (en)*1987-12-211998-05-05Miller; PhillipIntegrated hand-held bar code processing device capable of automatic scan and data display
US5151581A (en)*1987-12-281992-09-29Symbol Technologies, Inc.Point-of-sale system including detachable infinitely adjustable optical scanner with selection of scan pattern
US5736721A (en)*1987-12-281998-04-07Symbol Technologies, Inc.Arrangement for and method of expediting commerical product transactions at a point-of-sale site
US4978226A (en)*1988-03-111990-12-18Minolta Camera Kabushiki KaishaDigital color copying machine for composing and controlling the color of a composed image
US5081527A (en)*1988-04-121992-01-14Minolta Camera Kabushiki KaishaDigital image forming apparatus
EP0702317A2 (en)1988-05-111996-03-20Symbol Technologies, Inc.Mirrorless scanner with movable laser
US5798512A (en)*1988-05-111998-08-25Symbol Technologies, Inc.Hand-held terminal with movable window
US5144120A (en)*1988-05-111992-09-01Symbol Technologies, Inc.Mirrorless scanners with movable laser, optical and sensor components
US5479002A (en)*1988-05-111995-12-26Symbol Technologies, Inc.Bar code scanner with scanning beam and/or field of view adjustable about three mutually orthogonal axes
EP0742530A3 (en)*1988-05-111999-12-15Symbol Technologies, Inc.Mirrorless scanners with movable laser, optical and sensor components
US5374817A (en)*1988-05-111994-12-20Symbol Technologies, Inc.Pre-objective scanner with flexible optical support
US5536925A (en)*1988-05-111996-07-16Symbol Technologies, Inc.Optical scanner with scanning light beam and detector field of view
US5191197A (en)*1988-05-111993-03-02Symbol Technologies, Inc.Arm mounted scanner actuatable by hand movement
EP0741367A2 (en)1988-05-111996-11-06Symbol Technologies, Inc.Optical scanner
EP0341717A3 (en)*1988-05-111990-10-24Symbol Technologies, Inc.Mirrorless scanners with movable lase, optical and sensor components
US5514861A (en)*1988-05-111996-05-07Symbol Technologies, Inc.Computer and/or scanner system mounted on a glove
US5471042A (en)*1988-05-111995-11-28Symbol Technologies, Inc.Handheld data entry terminal having dual trigger switches
US5661290A (en)*1988-05-111997-08-26Symbol Technologies, Inc.Scanner with flexibly supported light emitter
USD305885S (en)1988-06-241990-02-06Symbol Technologies, Inc.Hand-held optical scanner
US5165071A (en)*1988-07-201992-11-17Minolta Camera Kabushiki KaishaDigital color copying machine
US5561283A (en)*1988-10-211996-10-01Symbol Technologies, Inc.Laser scanning system and scanning method for reading bar codes
US5229591A (en)*1988-10-211993-07-20Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5866894A (en)*1988-10-211999-02-02Symbol Technologies, Inc.Electro-optical scanner module having oscillating lens
US5996895A (en)*1988-10-211999-12-07Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5478997A (en)*1988-10-211995-12-26Symbol Technologies, Inc.Symbol scanning system and method having adaptive pattern generation
US5811785A (en)*1988-10-211998-09-22Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US6478225B1 (en)1988-10-212002-11-12Symbol Technologies, Inc.Adaptive bar code scanner
US5525788A (en)*1988-10-211996-06-11Symbol Technologies Inc.System for scanning bar code symbols on moving articles using a camera and scanner
US5569901A (en)*1988-10-211996-10-29Symbol Technologies, Inc.Symbol scanning system and method having adaptive pattern generation
US5235167A (en)*1988-10-211993-08-10Symbol Technologies, Inc.Laser scanning system and scanning method for reading bar codes
US5304788A (en)*1988-10-311994-04-19Symbol Technologies, Inc.Laser diode scanner with enhanced visibility at an aiming distance relative to the reading distance
US5015833A (en)*1988-10-311991-05-14Symbol Technologies, Inc.Scan board module for laser scanners
US4923281A (en)*1988-11-011990-05-08Symbol Technologies Inc.Laser diode focusing module, method of fabricating, and method of using
US5182638A (en)*1988-11-081993-01-26Minolta Camera Kabushiki KaishaDigital color copying machine comprising a test mode for making a color adjustment
US5099293A (en)*1988-12-061992-03-24Minolta Camera Kabushiki KaishaImage processing apparatus operable analogue and digital copying modes
USD305884S (en)1988-12-091990-02-06Symbol Technologies, Inc.Hand-held laser scanning terminal
US4962980A (en)*1989-01-231990-10-16Metrologic Instruments, Inc.Laser scanner engine with folded beam path
US4958894A (en)*1989-01-231990-09-25Metrologic Instruments, Inc.Bouncing oscillating scanning device for laser scanning apparatus
US4930848A (en)*1989-01-261990-06-05Metrologic Instruments, Inc.Portable laser scanner with integral scanner engine
US4983818A (en)*1989-01-301991-01-08Metrologic Instruments, Inc.Data acquisition system with laser scanner module
US5888087A (en)*1989-01-311999-03-30Norand CorporationOne-handed dock for a portable data collection terminal
US5521370A (en)*1989-01-311996-05-28Norand CorporationPistol grip hand-held data terminal cooperable with communicating and recharging dock
US5119182A (en)*1989-02-231992-06-02Minolta Camera Kabushiki KaishaImage forming apparatus comprising sample image printing mode and image forming method therefor
US5591952A (en)*1989-03-011997-01-07Symbol TechnologiesBar code reader
US5396054A (en)*1989-03-011995-03-07Symbol Technologies, Inc.Bar code reader using scanned memory array
US5414250A (en)*1989-03-011995-05-09Symbol Technologies, Inc.Method and apparatus for reading two-dimensional bar code employing bit-mapped imaging
US5637851A (en)*1989-03-011997-06-10Symbol Technologies, Inc.Laser scanner for reading two dimensional bar codes
US5070293A (en)*1989-03-021991-12-03Nippon Soken, Inc.Electric power transmitting device with inductive coupling
US5019764A (en)*1989-03-131991-05-28Symbol Technologies, Inc.Portable laser scanning system and scanning methods having a resonant motor control circuit
US5189291A (en)*1989-05-011993-02-23Symbol Technologies, Inc.Bar code reader operable as remote scanner or with fixed terminal
EP0770970A2 (en)1989-05-011997-05-02Symbol Technologies, Inc.Laser scanning system for reading bar codes
US5010242A (en)*1989-05-081991-04-23Mars IncorporatedMethod and apparatus for variable speed scanning of bar codes
WO1990013875A1 (en)*1989-05-081990-11-15Mars IncorporatedMethod and apparatus for variable speed scanning of bar codes
US5124539A (en)*1989-06-161992-06-23Symbol Technologies, Inc.Scan pattern generators for bar code symbol readers
EP0770962A2 (en)1989-06-291997-05-02Symbol Technologies, Inc.Packet data communication system
US4992717A (en)*1989-07-191991-02-12Symbol Technologies, Inc.Stepper motor drive circuit
US4969153A (en)*1989-07-241990-11-06Ncr CorporationLaser tube and power supply
US5124799A (en)*1989-08-111992-06-23Minolta Camera Kabushiki KaishaDigital color copying machine for forming a plurality of images of the same image
US5117098A (en)*1989-09-291992-05-26Symbol Technologies, Inc.Multi-position trigger for control over aiming and symbol reading in a portable laser diode scanning head
US5477043A (en)*1989-10-301995-12-19Symbol Technologies, Inc.Scanning arrangement for the implementation of scanning patterns over indicia by driving the scanning elements in different component directions
US5099110A (en)*1989-10-301992-03-24Symbol Technologies, Inc.Power saving scanning arrangement
US5693929A (en)*1989-10-301997-12-02Symbol Technologies, Inc.Scanning module with spring made resistant to overflexing
US5373148A (en)*1989-10-301994-12-13Symbol Technologies, Inc.Optical scanners with scan motion damping and orientation of astigmantic laser generator to optimize reading of two-dimensionally coded indicia
US5262627A (en)*1989-10-301993-11-16Symbol Technologies, Inc.Scanning arrangement and method
US5412198A (en)*1989-10-301995-05-02Symbol Technologies, Inc.High-speed scanning arrangement with high-frequency, low-stress scan element
US5003164A (en)*1989-10-301991-03-26Symbol Technologies Inc.Portable laser scanning system and scanning methods having a motor amplitude regulator circuit
US5168149A (en)*1989-10-301992-12-01Symbol Technologies, Inc.Scan pattern generators for bar code symbol readers
US5583331A (en)*1989-10-301996-12-10Symbol Technologies, Inc.Arrangement for compensating for scan line curvature
US5422469A (en)*1989-10-301995-06-06Symbol Technologies, Inc.Fiber optic barcode readers using purely mechanical scanner oscillation
US5691528A (en)*1989-10-301997-11-25Symbol Technologies Inc.Scanning system for either hand-held or stationary operation for reading 1-D or 2-D barcodes
US5367151A (en)*1989-10-301994-11-22Symbol Technologies, Inc.Slim scan module with interchangeable scan element
US5825013A (en)*1989-10-301998-10-20Symbol Technologies, Inc.Electromagnetically activated scanner with suspended scanner component
US5486944A (en)*1989-10-301996-01-23Symbol Technologies, Inc.Scanner module for symbol scanning system
US5206492A (en)*1989-10-301993-04-27Symbol Technologies, Inc.Bar code symbol scanner with reduced power usage to effect reading
US5481099A (en)*1989-10-301996-01-02Symbol Technologies, Inc.Scanning arrangement for the implementation of omni-directional scanning patterns over indicia
US5479000A (en)*1989-10-301995-12-26Symbol Technologies, Inc.Compact scanning module for reading bar codes
US5552592A (en)*1989-10-301996-09-03Symbol Technologies, Inc.Slim scan module with dual detectors
EP0433593A2 (en)1989-11-201991-06-26Symbol Technologies, Inc.Bar code symbol readers with edge enhancement
US5140146A (en)*1989-11-201992-08-18Symbol Technologies, Inc.Bar code symbol reader with modulation enhancement
US5262626A (en)*1989-12-061993-11-16Symbol Technologies, Inc.Decoding bar codes from multiple scans using element replacement
US5278398A (en)*1990-01-051994-01-11Symbol Technologies, Inc.Decoding bar code symbols by determining the best alignment of partial scans
US5126545A (en)*1990-01-161992-06-30Symbol Technologies, Inc.Portable laser scanning system having a motor drive with no DC windings
US5080456A (en)*1990-02-261992-01-14Symbol Technologies, Inc.Laser scanners with extended working range
US5663549A (en)*1990-03-131997-09-02Symbol Technologies, Inc.System for reading a symbol by activitating a liquid crystal device to control a scanning path
US5712470A (en)*1990-03-131998-01-27Symbol Technologies, Inc.Bar code scanner utilizing multiple light beams output by a light beam splitter
US5258605A (en)*1990-03-131993-11-02Symbol Technologies, Inc.Scan generators for bar code reader using linear array of lasers
US5912450A (en)*1990-03-131999-06-15Symbol Technologies, Inc.Bar code scanner utilizing time-multiplexed scan lines
US5545886A (en)*1990-03-131996-08-13Symbol Technologies Inc.Barcode scanner using an array of light emitting elements which are selectively activated
US5250791A (en)*1990-04-091993-10-05Symbol Technologies, Inc.Scanning system with adjustable light output and/or scanning angle
US5233170A (en)*1990-04-181993-08-03Symbol Technologies, Inc.Bar code symbol scanner utilizing monitor photodiode of laser diode package as a photoreceiver
US5187353A (en)*1990-04-181993-02-16Symbol Technologies, Inc.Bar code symbol scanner utilizing monitor photodiode of laser diode package as a photoreceiver
US6412697B1 (en)1990-05-082002-07-02Symbol Technologies, Inc.Palm scanner
US5637856A (en)*1990-05-081997-06-10Symbol Technologies, Inc.Scanning system and scanning method with scan pattern control for reading 1-D and 2-D barcode symbols
US5861615A (en)*1990-05-081999-01-19Symbol Technologies, Inc.Palm scanner
US5504316A (en)*1990-05-081996-04-02Symbol Technologies, Inc.Laser scanning system and scanning method for reading 1-D and 2-D barcode symbols
US5914480A (en)*1990-05-291999-06-22Symbol Technologies, Inc.Scanning device formed from integrated components on a semiconductor substrate
US6021947A (en)*1990-05-292000-02-08Symbol Technologies, Inc.Integrated circuit implemented on a semiconductor substrate in a bar code reader
EP0467014A2 (en)1990-07-161992-01-22Symbol Technologies, Inc.Arrangement and method for a point-of sale site
US6058000A (en)*1990-07-312000-05-02Intermec Ip Corp.Method and apparatus for electromagnetic shielding and electrostatic discharge protection
US5828050A (en)*1990-08-031998-10-27Symbol Technologies, Inc.Light emitting laser diode scanner
DE4125899C2 (en)*1990-08-032000-03-02Symbol Technologies Inc Bar code scanner and method of operating the same
US5268564A (en)*1990-08-031993-12-07Symbol Technologies, Inc.Bar code scanner actuated by detection of scanner motion
DE4125899A1 (en)*1990-08-031992-02-06Symbol Technologies Inc SENSOR DEVICE WITH LIGHT-EMITTING DIODE
US6651890B2 (en)1990-09-102003-11-25Sung Ho ByunCombination hand-held and counter-top omnidirectional scanner
US6607133B2 (en)1990-09-102003-08-19Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US6783075B2 (en)1990-09-102004-08-31Metrologic Instruments, Inc.Portable hand-supportable data terminal with automatically-activated laser scanning bar code symbol reader integrated therein
US6257492B1 (en)1990-09-102001-07-10Peter BresslerCombination hand-held and counter-top omni-directional scanner
US6283375B1 (en)1990-09-102001-09-04Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US20030019938A1 (en)*1990-09-102003-01-30Metrologic Instruments, Inc.Counter-top scanner with bump protection mechanism and scan angle adjustment mechanism
US7252238B2 (en)1990-09-102007-08-07Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US6772949B2 (en)1990-09-102004-08-10Metrologic Instruments, Inc.Portable hand-supportable data terminal with automatically-activated laser scanning bar code symbol reader integrated therein
US6595420B1 (en)1990-09-102003-07-22Metrologic Instruments, Inc.Automatically-activated body-wearable laser scanning bar code symbol reading system having data-transmission activation switch
US20040089721A1 (en)*1990-09-102004-05-13Wilz David M.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US20030178491A1 (en)*1990-09-112003-09-25Blake Robert E.Electronically-controlled mechanically-damped off-resonant light beam scanning mechanism and code symbol readers employing the same
US5742043A (en)*1990-09-111998-04-21Metrologic Instruments, Inc.Body-nearable laser scanning system with programmed mode for consecutively reading bar code symbols without system reactivation
US6648229B1 (en)1990-09-112003-11-18Metrologic Instruments, Inc.Optical scanner with mounting/conveying mechanism and system control circuitry
US6742709B2 (en)1990-09-112004-06-01Metrologic Instruments, Inc.Bar code symbol reading system employing electronically-controlled raster-type laser scanner for reading bar code symbols during hands-on and hands-free modes of operation
US6874689B2 (en)1990-09-112005-04-05Metrologic Instruments, Inc.Laser beam scanning device employing a scanning element having a flexible photo-etched gap region disposed between an anchored base portion and a light beam deflecting portion having a natural frequency of oscillation tuned by the physical dimensions of said flexible photo-etched gap region and forcibly oscillated about a fixed pivot point at an electronically-controlled frequency of oscillation substantially different from said natural resonant frequency of oscillation
US6427917B2 (en)1990-09-112002-08-06Metrologic Instruments, Inc.Optical scanner with controller subsystem
US6085981A (en)*1990-09-112000-07-11Metrologic Instruments, Inc.Automatic hand-mounted bar code symbol laser scanner
US7255280B2 (en)1990-09-112007-08-14Metrologic Instruments, Inc.Electronically-controlled mechanically-damped off-resonant light beam scanning mechanism and code symbol readers employing the same
US5756982A (en)*1990-09-111998-05-26Metrologic Instruments, Inc.Body-wearable automatic laser scanner with power-conserving control subsystem
US6227450B1 (en)*1990-09-112001-05-08Metrologic Instruments, Inc.Electronically-controlled mechanically-damped off-resonant light beam scanning mechanism and code symbol readers employing the same
US6223987B1 (en)1990-09-112001-05-01Metrologic Instruments, Inc.Body-wearable automatic laser scanner
US6976632B2 (en)1990-09-172005-12-20Metrologic Instruments Inc.Automatic hand-supportable laser scanner and method of reading bar code symbols using same
US5468951A (en)*1990-09-171995-11-21Metrologic Instruments, Inc.Automatic hand-supportable code symbol scanning device with improved laser beam pointing efficiency
US5484992A (en)*1990-09-171996-01-16Metrologic Instruments, Inc.Automatic hand-supportable laser scanner with flickering laser scanning beam to improve visibility thereof and beam-symbol alignment during bar code symbol presence detection
US5340973A (en)*1990-09-171994-08-23Metrologic Instruments, Inc.Automatic laser scanning system and method of reading bar code symbols using same
US6328211B1 (en)1990-09-172001-12-11Metrologic Instruments, Inc.Automatic hand-supportable laser bar code symbol scanner and method of reading bar code symbols using the same
US7611063B2 (en)1990-09-172009-11-03Metrologic Instruments, Inc.Automatically-activated code symbol reading system
US5260553A (en)*1990-09-171993-11-09Metrologic Instruments, Inc.Automatic hand-supportable laser bar code symbol scanner and method of reading bar code symbols using the same
US20080041962A1 (en)*1990-09-172008-02-21Metrologic Instruments Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US5591953A (en)*1990-09-171997-01-07Metrologic Instruments, Inc.Countertop bar code symbol reading system having automatic hand-supportable bar code symbol reading device and stand for supporting projected scan field thereof
US20040046031A1 (en)*1990-09-172004-03-11Metrologic Instruments, Inc.Bar code scanning system with wireless communication links
US5925871A (en)*1990-09-171999-07-20Metrologic Instruments, Inc.Automatic laser projection scanner with improved laser beam scanning efficiency
US7040540B2 (en)1990-09-172006-05-09Metrologic Instruments, Inc.Bar code scanning system with wireless communication links
US5340971A (en)*1990-09-171994-08-23Metrologic Instruments, Inc.Automatic bar code reading system having selectable long range and short range modes of operation
US5811780A (en)*1990-09-171998-09-22Rockstein; George B.Countertop bar code symbol reading system having automatic hand supportable bar code symbol reading device and stand for supporting projected scan field
US7017813B2 (en)1990-09-172006-03-28Metrologic Instruments, Inc.Bar code reader for automatically detecting the presence of a bar code using laser flicker
US5528024A (en)*1990-09-171996-06-18Metrologic Instruments, Inc.Device for selectively reading code symbols in spatially-defined portions of the scan field
US5661292A (en)*1990-09-171997-08-26Metrologic Instruments, Inc.Automatic laser projection scanner with improved laser beam scanning efficiency
US20050127185A1 (en)*1990-09-172005-06-16Wilz David M.Sr.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US5424525A (en)*1990-09-171995-06-13Metrologic Instruments, Inc.Portable bar code symbol reading device with bar code symbol detection circuit for activating microprocessor implemented bar code symbol decoder
US7156310B2 (en)1990-09-172007-01-02Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with data transmission activation switch
US5525789A (en)*1990-09-171996-06-11Metrologic Instruments, Inc.Automatic laser bar code symbol reading system and method of reading bar code symbols using same
US20040206823A1 (en)*1990-09-172004-10-21Robert BlakeBar code reader for automatically detecting the presence of a bar code using laser flicker
US5514859A (en)*1990-10-031996-05-07Seagull Scientific Systems, Inc.Power and data interface for peripheral devices
US5691834A (en)*1990-11-151997-11-25Geo Labs, Inc.Ultra compact scanning system for a wide range of speeds, angles and field depth
US6118569A (en)*1990-11-152000-09-12Plesko; George A.Ultra compact scanning system for a wide range of speeds, angles and field depth
US5596446A (en)*1990-11-151997-01-21Gap Technologies, Inc.Ultra compact scanning system for a wide range of speeds, angles and field depth
US5132523A (en)*1990-12-101992-07-21Ncr CorporationDual mode optical scanning system
US5188370A (en)*1990-12-271993-02-23Vlahos Mary EGame cards in multiple form and a container/dispenser device
EP1686730A1 (en)1990-12-282006-08-02Symbol Technologies, Inc.Packet data communication system with acknowledgement
US5168148A (en)*1990-12-281992-12-01Symbol Technologies, Inc.Automatic gain control circuit
US5266787A (en)*1991-01-111993-11-30Symbol Technologies, Inc.Laser scanner using two scan motors independently controlled by a single signal
US5196683A (en)*1991-04-081993-03-23Symbol Technologies, Inc.Bar code acquisition utilizing moire patterns
US5420411A (en)*1991-06-141995-05-30Symbol Technologies, Inc.Combined range laser scanner
US5723851A (en)*1991-06-141998-03-03Symbol Technologies, Inc.Combined range, turn parallel beam assembly with common focusing element for scanning systems
US5883375A (en)*1991-09-171999-03-16Metrologic Instruments, Inc.Bar code symbol scanner having fixed and hand-held modes
US5627359A (en)*1991-09-171997-05-06Metrologic Instruments, Inc.Laser code symbol scanner employing optical filtering system having narrow band-pass characteristics and spatially separated optical filter elements with laser light collection optics arranged along laser light return path disposed therebetween
US6209789B1 (en)1991-09-172001-04-03Metrologic Instruments, Inc.Optical filtering system for a laser bar code scanner having narrow band-pass characteristics employing spatially separated filtering elements including a scanner window
US5616908A (en)*1991-09-171997-04-01Metrologic Instruments, Inc.Automatic countertop laser scanner with flickering laser scanner beam for improved visibility thereof during bar code symbol reading
US6029894A (en)*1991-09-172000-02-29Metrologic Instruments, Inc.Optical filtering system for a laser bar code scanner having narrow band-pass characteristics with spatially separated filtering elements
EP0608368B1 (en)*1991-10-152002-07-24GEO Acquisition Corp.Electro-optical scanning system
US5315097A (en)*1991-11-291994-05-24Ncr CorporationMethod and apparatus for operating a triggerless hand-held optical scanner
US5302812A (en)*1991-12-231994-04-12Symbol Technologies, Inc.Laser scanning device with automatic range and spot size adjustment
US5386107A (en)*1991-12-231995-01-31Symbol Technologies, Inc.Scanning arrangement and method in which the focus is varied in operative correlation with the scanning angle
US5280162A (en)*1991-12-231994-01-18Symbol Technologies, Inc.Object sensing system for bar code laser scanners
US5343025A (en)*1992-01-071994-08-30Tokyo Electric Co., Ltd.Check-out device with activity sensor terminating article input
US5202784A (en)*1992-01-101993-04-13Spectra-Physics Scanning Systems, Inc.Optical system for data reading applications
US5475206A (en)*1992-02-211995-12-12Spectra-Physics Scanning Systems, Inc.Scanner assembly
US6000619A (en)*1992-02-211999-12-14Spectra-Physics Scanning Systems, Inc.Scanner assembly
US5449893A (en)*1992-04-021995-09-12Symbol Technologies, Inc.Digitizer for bar code reader
US6209788B1 (en)1992-04-022001-04-03Symbol Technologies, Inc.Optical scanners
US6082621A (en)*1992-04-022000-07-04Symbol Technologies, Inc.Interface between threshold processing digitizer for bar code reader
US6036093A (en)*1992-04-232000-03-14Intermec Ip Corp.Modular scanner with hand-held data terminal
US5264956A (en)*1992-04-301993-11-23Silitek CorporationScanner mounting hardware
US5324924A (en)*1992-05-111994-06-28Symbol Technologies, Inc.Bar code decoder with changeable working ranges
US6036098A (en)*1992-05-152000-03-14Symbol Technologies, Inc.Miniature scan element operably connected to a personal computer interface card
US5610387A (en)*1992-05-151997-03-11Symbol Technologies, Inc.Portable optical scanning system worn by a user for reading indicia of differing light reflectivity
US5708262A (en)*1992-05-151998-01-13Symbol Technologies, Inc.Miniature high speed scan element mounted on a personal computer interface card
US5633489A (en)*1992-06-031997-05-27Symbol Technologies, Inc.Combination mouse and scanner for reading optically encoded indicia
US6015090A (en)*1992-06-122000-01-18Symbol Technologies, Inc.Hand mountable adaptive barcode scanner
US20040074969A1 (en)*1992-06-122004-04-22Metrologic Instruments, Inc.Automatic optical projection scanner with improved activation controlling mechanism
US5608202A (en)*1992-06-121997-03-04Symbol Technologies, Inc.Symbol scanning system and method having adaptive pattern generation
US6189793B1 (en)*1992-06-122001-02-20Metrologic Instruments, Inc.Automatic laser projection scanner with improved activation controlling mechanism
US6575369B1 (en)1992-06-122003-06-10Metrologic Instruments, Inc.Automatic optical projection scanner with improved activation controlling mechanism
US6499664B2 (en)1992-06-122002-12-31Metrologic Instruments, Inc.Automatic optical scanner with improved activation controlling mechanism
US5280163A (en)*1992-06-261994-01-18Symbol Technologies, Inc.Drive circuit for resonant motors
US5444231A (en)*1992-07-131995-08-22Symbol Technologies, Inc.Bar code scan stitching
US5335170A (en)*1992-09-041994-08-02Comtec Information Systems, Inc.Modular system for inventory control
US5552590A (en)*1992-09-081996-09-03Nippondenso Co., Ltd.Optical information reading apparatus having means for judging laser deterioration
US5378882A (en)*1992-09-111995-01-03Symbol Technologies, Inc.Bar code symbol reader with locking cable connector assembly
US5621203A (en)*1992-09-251997-04-15Symbol TechnologiesMethod and apparatus for reading two-dimensional bar code symbols with an elongated laser line
US6215475B1 (en)1992-10-022001-04-10Telxon CorporationHighly integrated portable electronic work slate unit
US5825617A (en)*1992-10-021998-10-20Teletransactions, Inc.Workslate computer having modular device docking stations on horizontal and vertical side portions
US5404001A (en)*1992-10-081995-04-04Bard; SimonFiber optic barcode reader
US5521367A (en)*1992-10-081996-05-28Symbol Technologies, Inc.Fiber optic barcode reader with piezoelectric element
US5461223A (en)*1992-10-091995-10-24Eastman Kodak CompanyBar code detecting circuitry
US5371348A (en)*1992-10-161994-12-06Khyber Technologies CorporationPortable device for handsfree data entry with variably-positionable display/scanner module detachable for handheld use
US5295014A (en)*1992-11-121994-03-15The Whitaker CorporationTwo-dimensional laser beam scanner using PVDF bimorph
US5315095A (en)*1993-02-181994-05-24Symbol Technologies, Inc.Beam with extended confinement for scanning purposes
US5479359A (en)*1993-03-171995-12-26Metcalf & Eddy, Inc.Automated data collection system for fugitive emission sources
US6811088B2 (en)1993-05-282004-11-02Symbol Technologies, Inc.Portable data collection system
US20020000470A1 (en)*1993-05-282002-01-03Michael LanzaroPortable data collection system
US6853293B2 (en)1993-05-282005-02-08Symbol Technologies, Inc.Wearable communication system
US5457308A (en)*1993-09-141995-10-10Symbol Technologies, Inc.Bar code scan stitching
US5495097A (en)*1993-09-141996-02-27Symbol Technologies, Inc.Plurality of scan units with scan stitching
US5821519A (en)*1993-09-141998-10-13Symbol Technologies, Inc.Bar code scan stitching
US5510607A (en)*1993-09-281996-04-23Kabushiki Kaisha TecOptical code reader having an illumination light source emitting light for at least a preset period responsive to operation of a trigger switch
US6059188A (en)*1993-10-252000-05-09Symbol TechnologiesPackaged mirror including mirror travel stops
US5546217A (en)*1993-11-051996-08-13Decagon Devices, Inc.Laser scanning apparatus
US6299067B1 (en)1993-11-242001-10-09Metrologic Instruments, Inc.Bar code scanner with intuitive head aiming and collimated scan volume
US5844227A (en)*1993-11-241998-12-01Metrologic Instruments, Inc.Automatic hand-supportable omnidirectional laser projection scanner with scan-head directed projection axis for intuitive hand-supported omnidirectional scanning of bar code symbols within a narrowly confined scanning volume extending thereabout
US5796091A (en)*1993-11-241998-08-18Metrologic Instruments, Inc.Automatic hand-supportable omnidirectional laser projection scanner with handle-controllable projection axis
US6604684B1 (en)1993-11-242003-08-12Metrologic Instruments Inc.Automatic optical projection scanner for omni-directional reading of bar code symbols within a confined scanning volume
US6860427B1 (en)1993-11-242005-03-01Metrologic Instruments, Inc.Automatic optical projection scanner for omni-directional reading of bar code symbols within a confined scanning volume
US5475208A (en)*1994-01-271995-12-12Symbol Technologies, Inc.Barcode scanner having a dead zone reducing system and a multifocal length collector
US7398930B2 (en)1994-03-042008-07-15Hand Held Products, Inc.Bar code reading device having image data in plurality of different formats
US5463214A (en)*1994-03-041995-10-31Welch Allyn, Inc.Apparatus for optimizing throughput in decoded-output scanners and method of using same
US7398929B2 (en)1994-03-042008-07-15Hand Held Products, Inc.Method and apparatus for reading decodable indicia
US8397992B2 (en)1994-03-042013-03-19Hand Held Products, Inc.Optical reader having image sensor for reading decodable indicia
US8602309B2 (en)1994-03-042013-12-10Hand Held Products, Inc.Bar code reading device for reading 1D or 2D bar code symbols
US7546954B2 (en)1994-03-042009-06-16Hand Held Products, Inc.Bar code reading device for reading 1D or 2D bar code symbols
US5778133A (en)*1994-04-291998-07-07Geo Labs, Inc.Nonimaging light collector
US6005255A (en)*1994-05-181999-12-21Symbol Technologies, Inc.Timing synchronization for image scanning
US5959286A (en)*1994-05-181999-09-28Symbol Technologies, Inc.Method and apparatus for raster scanning of images
US5440574A (en)*1994-06-021995-08-08Spectra-Physics Laserplane, Inc.Solid-state laser
US5479431A (en)*1994-06-021995-12-26Spectra-Physics Laserplane, Inc.Solid-state laser with active etalon and method therefor
US5450429A (en)*1994-06-021995-09-12Spectra-Physics Laserplane, Inc.Efficient linear frequency doubled solid-state laser
US5420876A (en)*1994-06-021995-05-30Spectra-Physics Laserplane, Inc.Gadolinium vanadate laser
US5530233A (en)*1994-06-301996-06-25Symbol Technologies, Inc.Bar code scanner with quasi-retroreflective light collection
US6388659B2 (en)1994-06-302002-05-14Telxon CorporationInteractive display user interface computer and method
US5717221A (en)*1994-06-301998-02-10Symbol Technologies, Inc.Multiple laser indicia reader optionally utilizing a charge coupled device (CCD) detector and operating method therefor
US5672858A (en)*1994-06-301997-09-30Symbol Technologies Inc.Apparatus and method for reading indicia using charge coupled device and scanning laser beam technology
US6266045B1 (en)1994-06-302001-07-24Telxon CorporationInteractive display user interface computer and method
US5706600A (en)*1994-07-081998-01-13Crimson Trace CorporationLaser sighting device for a weapon
US5521369A (en)*1994-07-251996-05-28Khyber Technologies CorporationCard shaped computer peripheral device
US5902991A (en)*1994-07-251999-05-11Khyber Technologies CorporationCard shaped computer peripheral device
US5635700A (en)*1994-07-271997-06-03Symbol Technologies, Inc.Bar code scanner with multi-channel light collection
US6375074B1 (en)1994-08-172002-04-23Metrologic Instruments, Inc.Holographic laser scanner for producing a highly-defined three-dimensional scanning volume having multiple focal regions within which the laser scanlines are spatially confined
US6286760B1 (en)1994-08-172001-09-11Metrologic Instruments, Inc.Automatic hand-supportable laser projection scanner for omni-directional reading of bar code symbols within a narrowly confined scanning volume
EP0715273A2 (en)1994-08-171996-06-05Metrologic Instruments, Inc.Code symbol reading system and method for reading these code symbols, e.g. bar code symbols
US5942743A (en)*1994-08-171999-08-24Metrologic Instruments, Inc.Portable automatic hand-supportable omnidirectional laser projection scanner with power conserving control system
EP0700012A1 (en)1994-08-291996-03-06Symbol Technologies, Inc.A portable optical scanning system worn by a user for reading indicia of differing light reflectivity
US5532468A (en)*1994-09-261996-07-02Allen-Bradley Company, Inc.Bar code reader for scanning an area at variable sweep angles
US5742042A (en)*1994-09-261998-04-21Allen-Bradley Company, Inc.Bar code reader having a position sensor in communication with a raster mirror
US5539192A (en)*1994-09-261996-07-23Allen-Bradley Company, Inc.Bar code reader mirror oscillator
US5543609A (en)*1994-10-281996-08-06Symbol Technologies, Inc.Arrangement for and method of providing shock protection and vibration isolation for a scan module
EP1398724A2 (en)1994-10-312004-03-17Symbol Technologies, Inc.Laser scanning system and scanning method for reading bar codes
US6543693B1 (en)1995-02-272003-04-08Symbol Technologies, Inc.Bar code readers using surface emitting laser diode
US6024283A (en)*1995-02-272000-02-15Symbol Technologies, Inc.Bar code readers having selectable optical elements
US5602377A (en)*1995-03-011997-02-11Metanetics CorporationBar code dataform scanning and labeling apparatus and method
US6329139B1 (en)1995-04-252001-12-11Discovery Partners InternationalAutomated sorting system for matrices with memory
US5734152A (en)*1995-05-311998-03-31Symbol Technologies, Inc.Optical scanners and signal processors therefor
US6547142B1 (en)1995-05-312003-04-15Symbol Technologies, Inc.Method of scanning indicia using selective sampling
US6170749B1 (en)1995-05-312001-01-09Symbol Technologies, Inc.Method of scanning indicia using selective sampling
US5873070A (en)*1995-06-071999-02-16Norand CorporationData collection system
US6017496A (en)*1995-06-072000-01-25IroriMatrices with memories and uses thereof
US5796088A (en)*1995-08-151998-08-18Teletransactions, Inc.Hand held portable bar code dataform reader having a rotatable reader module portion
US5750975A (en)*1995-08-251998-05-12Teletransactions, Inc.Hand held bar code dataform reader having a rotatable reading assembly
EP0783157A2 (en)1996-01-051997-07-09Symbol Technologies, Inc.Simplified assembly and automatic testing of components in electro-optical systems for reading coded indicia
US6000615A (en)*1996-01-111999-12-14Webscan, Inc.Methods for scanning a succession of bar code symbols
US6065678A (en)*1996-01-252000-05-23Symbol Technologies, Inc.Bar code scanner having a focusing system
US5835984A (en)*1996-01-251998-11-10Symbol Technologies, Inc.Optical scanner employing smart pixel array
US5744790A (en)*1996-01-251998-04-28Symbol Technologies, Inc.Split optics focusing apparatus for CCD-based bar code scanner
US7470244B2 (en)1996-01-262008-12-30Harrison Jr Shelton EFlexion-discouraging splint system, method and device
US20030209604A1 (en)*1996-01-262003-11-13Harrison Shelton E.Wearable computing system, method and device
US6234396B1 (en)*1996-02-202001-05-22Opticon, Inc.Optical pattern reading apparatus
US5705800A (en)*1996-03-051998-01-06Symbol Technologies, Inc.Laser scanner system for controlling the optical scanning of bar codes
US7358857B1 (en)1996-03-272008-04-15Symbol Technologies, Inc.Global positioning systems applications
US5821522A (en)*1996-04-031998-10-13Symbol Technologies, Inc.Optical scanner with high speed zoom capability
US5798515A (en)*1996-04-031998-08-25Symbol Technologies, Inc.Optical scanner with fast zoom capability and scanning system
US6164540A (en)*1996-05-222000-12-26Symbol Technologies, Inc.Optical scanners
US5959285A (en)*1996-10-161999-09-28Symbol Technologies, Inc.Two-dimensional bar code symbology using gray code encodation scheme
US5811787A (en)*1996-12-091998-09-22Symbol Technologies, Inc.Two-dimensional bar code symbology using implicit version information encoding
US6047892A (en)*1996-12-092000-04-11Symbol Technologies, Inc.Two-dimensional bar code symbology using implicit version information encoding
US5870219A (en)*1997-01-201999-02-09Geo. Labs, Inc.Ultra compact scanning system for a wide range of speeds, angles and field depth
US6119944A (en)*1997-02-032000-09-19Symbol Technologies, Inc.Down-loadable hand-held optical reader
US7365891B2 (en)1997-04-302008-04-29Quantapoint, Inc.Method and apparatus for directing energy based range detection sensors
US6057554A (en)*1997-05-122000-05-02Plesko; George A.Reflective switch
US6098877A (en)*1997-05-212000-08-08Symbol Technologies, Inc.Interface and method for controlling an optical reader having a scanning module
US6976626B2 (en)1997-09-162005-12-20Metrologic Instruments, Inc.Wireless bar code symbol driven portable data terminal (PDT) system adapted for single handed operation
WO1999014705A1 (en)*1997-09-161999-03-25Metrologic Instruments, Inc.Bar code symbol reading system
US20050001036A1 (en)*1997-09-162005-01-06Metrologic Instruments, Inc.Bar code symbol reading system employing electronically-controlled raster-type laser scanner for reading bar code symbols during hands-on and hands-free modes of operation
US7124950B2 (en)1997-09-162006-10-24Metrologic Instruments, Inc.Bar code symbol reading system employing electronically-controlled raster-type laser scanner for reading bar code symbols during on hands-on and hands-free modes of operation
US5949068A (en)*1997-10-071999-09-07Telxon CorporationOptical reader for scanning optical indicia by way of varying object distance
US6225641B1 (en)1997-10-072001-05-01Telxon CorporationOptical reader for scanning optical indicia by movement of an aperture relative to an image plane
US6093962A (en)*1998-01-292000-07-25Olympus Optical Co., Ltd.High frequency shielding case of semiconductor laser
EP2282283A2 (en)1998-03-202011-02-09Symbol Technologies, Inc.Bar code reader with an integrated scanning component module mountable on printed circuit board
EP2275965A2 (en)1998-03-202011-01-19Symbol Technologies, Inc.Bar code reader with an integrated scanning component module mountable on printed circuit board
US6923374B2 (en)1998-03-242005-08-02Metrologic Instruments, Inc.Neutron-beam based scanning system having an automatic object identification and attribute information acquisition and linking mechanism integrated therein
EP0945818A2 (en)1998-03-241999-09-29Symbol Technologies, Inc.Bar code reader for portable computers
US6318631B1 (en)1998-04-132001-11-20Eldat Communication Ltd.Scanning communicator
US6073848A (en)*1998-05-182000-06-13Symbol Technologies, Inc.Digital automatic gain control for multi-stage amplification circuits
US6126075A (en)*1998-06-042000-10-03Motorola, Inc.Optical code reader including circuitry for processing the read symbology
US6119938A (en)*1998-06-172000-09-19Motorola, Inc.Optical code reader having a controllable amplifier and methods therefor
US6260760B1 (en)*1998-06-172001-07-17Motorola, Inc.Optical code reader including circuitry for processing the symbology
US20050121523A1 (en)*1998-12-032005-06-09Metrologic Instruments, Inc.Wireless laser scanning bar code symbol reading system employing a low-battery protection circuit, vibrational alarm and sleep mode of operation
US20040206825A1 (en)*1998-12-032004-10-21Metrologic Instruments, Inc.Wireless bar code symbol driven portable data terminal ( PDT) system adapted for single handed operation
US20050082371A1 (en)*1998-12-032005-04-21Metrologic Instruments, Inc.Automatically-activated wireless hand-supportable laser scanning bar code symbol reading system with data transmission activation switch and automatic communication range dependent control
US7464878B2 (en)1998-12-032008-12-16Metrologic Instruments, Inc.Automatically-activated wireless hand-supportable laser scanning bar code symbol reading system with automatic communication range dependent control
US20050199727A1 (en)*1998-12-032005-09-15Mark SchmidtWireless bar code symbol reading system capable of automatically collecting and storing symbol character data when hand-supportable unit is operated outside of its RF data communication range, and automatically transmitting stored symbol character data when the hand-supportable unit is operated within its RF data communication range
US20050199726A1 (en)*1998-12-032005-09-15Metrologic Instruments, Inc.Automatically-activated laser scanning 2D bar code symbol reading system
US20050199728A1 (en)*1998-12-032005-09-15Mark SchmidtWireless laser scanning bar code symbol reading system, wherein the RF-based transceiver chipsets within the wireless hand-supportable unit and base station thereof are automatically deactivated and said RF data communication link therebetween terminated when said system enters its power-saving sleep mode, and reactivated and re-eastablished when re-entering its operational mode
US20050211782A1 (en)*1998-12-032005-09-29William MartinAutomatically-activated hand-supportable laser scanning bar code symbol reading system with omnidirectional and unidirectional scanning modes in addition to a data transmission activation switch
US7686225B2 (en)1998-12-032010-03-30Metrologic Instruments, Inc.Wireless code symbol reading system with automatic communication range dependent control
US20050274810A1 (en)*1998-12-032005-12-15Metrologic Instruments, Inc.Wireless bar code symbol reading system employing a base station with a cradle having a hinged support hooks for enabling vertical and horizontal installations
US7172126B2 (en)1998-12-032007-02-06Metrologic Instruments, Inc.Wireless automatic laser scanning bar code symbol reading system, wherein the RF-based transceiver chipsets within the wireless hand-supportable unit and base station thereof are automatically deactivated and said RF data communication link therebetween terminated when said system enters its power-saving sleep mode, and reactivated and re-established when re-entering its operational mode
US7523867B2 (en)1998-12-032009-04-28Metrologic Instruments, Inc.Automatically-activated hand-supportable laser scanning bar code symbol reading system with omnidirectional and unidirectional scanning modes in addition to a data transmission activation switch
US20040251307A1 (en)*1998-12-032004-12-16Metrologic Instruments, Inc.Automatically-activated hand-supportable 2-D bar code symbol reading system employing a linear laser scanning pattern generator, an automatic bar code symbol data detector, audible data capture feedback generator, and a manually-activated data transmission activation switch
US7007849B2 (en)1998-12-032006-03-07Metrologic Instruments, Inc.Automatically-activated hand-supportable 2-d bar code symbol reading system employing a linear laser scanning pattern generator, an automatic bar code symbol data detector, audible data capture feedback generator, and a manually-activated data transmission activation switch
US20040016812A1 (en)*1998-12-032004-01-29Metrologic Instruments, Inc.Wireless bar code symbol reading system capable of automatically collecting and storing symbol character data when hand-supportable unit is operated outside of its RF data communication range, and automatically transmitting stored symbol character data when the hand-supportable unit is operated within its RF data communication range
US7325740B2 (en)1998-12-032008-02-05Metrologic Instruments, Inc.Automatically-activated laser scanning 2D bar code symbol reading system employing a visible linear-type laser scanning pattern and an audible feedback signal during scan data capturing and buffering operations
US7028904B2 (en)1998-12-032006-04-18Metrologic Instruments, Inc.Wireless bar code symbol reading system capable of automatically collecting and storing symbol character data when hand-supportable unit is operated outside of its rf data communication range, and automatically transmitting stored symbol character data when the hand-supportable unit is operated within its rf data communication range
US20080128512A1 (en)*1998-12-032008-06-05Metrologic Instruments, Inc.Wireless hand-supportable code symbol reading system with automatic communication range dependent control
US7934659B2 (en)1998-12-032011-05-03Metrologic Instruments, Inc.Wireless bar code symbol driven portable data terminal (PDT) system for running application programs on an operating system emulated on a virtual machine
US7048192B2 (en)1998-12-032006-05-23Metrologic Instruments, Inc.Wireless bar code symbol reading system employing a base station with a cradle having a hinged support hooks for enabling vertical and horizontal installations
US20070090192A1 (en)*1998-12-032007-04-26Metrologic Intruments, Inc.Wireless bar code symbol driven portable data terminal (PDT) system for running application programs on an operating system emulated on a virtual machine
US20040173684A1 (en)*1998-12-032004-09-09Metrologic Instruments, Inc.Automatically-activated hand-supportable omni-directional laser scanning bar code symbol reader having a user-selectable linear scanning menu-reading mode supported by a stroboscopically-pulsed omni-directional laser scanning pattern for improved bar code symbol navigation and alignment during menu-reading operations
US20060169782A1 (en)*1998-12-032006-08-03Metrologic Instruments, Inc.Automatically-activated wireless laser scanning 2D bar code symbol reading system capable of automatically transmitting stored symbol character data when the hand-supportable unit is operated within its RF data communication range and automatically collecting and storing symbol character data when the hand-supportable unit is operated outside of its RF data communication range
US7097105B2 (en)1998-12-032006-08-29Metrologic Instruments, Inc.Automatically-activated hand-supportable omni-directional laser scanning bar code symbol reader having a user-selectable linear scanning menu-reading mode supported by a stroboscopically-pulsed omni-directional laser scanning pattern for improved bar code symbol navigation and alignment during menu-reading operations
US7278578B2 (en)1998-12-032007-10-09Metrologic Instruments, Inc.Automatically-activated wireless laser scanning 2D bar code symbol reading system capable of automatically transmitting stored symbol character data when the hand-supportable unit is operated within its RF data communication range and automatically collecting and storing symbol character data when the hand-supportable unit is operated outside of its RF data communication range
US7281663B2 (en)1998-12-032007-10-16Metrologic Instruments, Inc.Wireless bar code symbol reading system having hand-supportable unit and remote base station
US7111786B2 (en)1998-12-032006-09-26Metrologic Instruments, Inc.Automatically-activated wireless hand-supportable laser scanning bar code symbol reading system with data transmission activation switch and automatic communication range dependent control
US7121468B2 (en)1998-12-032006-10-17Metrologic Instruments, Inc.Method of developing an application program for running on a wireless portable data terminal (PDT)
US7137561B2 (en)1998-12-032006-11-21Metrologic Instruments, Inc.Wireless laser scanning bar code symbol reading system employing a low-battery protection circuit, vibrational alarm and sleep mode of operation
US6298171B1 (en)1999-03-232001-10-02Christopher W. LortonSystem for reading data glyphs
US6415978B1 (en)1999-05-032002-07-09Psc Scanning, Inc.Multiple technology data reader for bar code labels and RFID tags
US8714443B2 (en)1999-05-272014-05-06Peter N. ChingMethod and apparatus for transferring and processing transaction data
US7299970B1 (en)1999-05-272007-11-27Ching Peter NMethod and apparatus for transferring and processing transaction data
US10013646B2 (en)1999-05-272018-07-03Peter N. ChingMethod and apparatus for transferring and processing transaction data
US6533168B1 (en)1999-05-272003-03-18Peter N. ChingMethod and apparatus for computer-readable purchase receipts using multi-dimensional bar codes
US20080086414A1 (en)*1999-05-272008-04-10Ching Peter NMethod and apparatus for computer-readable purchase receipts using multi-dimensional bar codes
US20060086794A1 (en)*1999-06-072006-04-27Metrologic Instruments, Inc..X-radiation scanning system having an automatic object identification and attribute information acquisition and linking mechanism integrated therein
US20070181685A1 (en)*1999-06-072007-08-09Metrologic Instruments, Inc.Automated package dimensioning subsystem
US7303132B2 (en)1999-06-072007-12-04Meterologic Instruments, Inc.X-radiation scanning system having an automatic object identification and attribute information acquisition and linking mechanism integrated therein
US6918541B2 (en)1999-06-072005-07-19Metrologic Instruments, Inc.Object identification and attribute information acquisition and linking computer system
US6915954B2 (en)1999-06-072005-07-12Metrologic Instruments, Inc.Programmable data element queuing, handling, processing and linking device integrated into an object identification and attribute acquisition system
US7104453B1 (en)1999-06-072006-09-12Metrologic Instruments, Inc.Unitary package identification and dimensioning system employing ladar-based scanning methods
US7527205B2 (en)1999-06-072009-05-05Metrologic Instruments, Inc.Automated package dimensioning system
US6578767B1 (en)1999-07-162003-06-17Symbol Technologies, Inc.Low cost bar code reader
US6078698A (en)*1999-09-202000-06-20Flir Systems, Inc.System for reading data glyphs
USD460068S1 (en)2000-03-272002-07-09Symbol Technologies, Inc.Portable handheld terminal housing
US6595427B1 (en)2000-08-312003-07-22Polaroid CorporationMethod and apparatus for encoding and decoding information in a non-visible manner
EP1184803B1 (en)*2000-08-312007-10-17Symbol Technologies, Inc.Electro-optical scanning assembly with one-piece oscillatable focussing/scan element
US6637657B2 (en)2001-04-062003-10-28Symbol Technologies, Inc.Compact scan module with magnetically centered scan mirror
US8071242B2 (en)2001-11-132011-12-06Eldat Communication Ltd.Hydrogen generators for fuel cells
US7431215B2 (en)2001-11-132008-10-07Metrologic Instruments, Inc.Automatically-activated hand-supportable omni-directional laser scanning bar code symbol reader having a user-selectable linear scanning menu-reading mode supported by a omni-directional laser scanning pattern having temporally varying intensity characteristics for improved bar code symbol navigation and alignment during menu-reading operations
US6770186B2 (en)2001-11-132004-08-03Eldat Communication Ltd.Rechargeable hydrogen-fueled motor vehicle
US7074509B2 (en)2001-11-132006-07-11Eldat Communication Ltd.Hydrogen generators for fuel cells
US20070114287A1 (en)*2001-11-132007-05-24Wilz David M SrAutomatically-activated hand-supportable omni-directional laser scanning bar code symbol reader having a user-selectable linear scanning menu-reading mode supported by a omni-directional laser scanning pattern having temporally varying intensity characteristics for improved bar code symbol navigation and alignment during menu-reading operations
US20050040238A1 (en)*2002-01-112005-02-24Metrologic Instruments, Inc.Counter-top scanner with bump protection mechanism and scan angle adjustment mechanism
US7021547B2 (en)*2002-01-112006-04-04Metrologic Instruments, Inc.Counter-top scanner with bump protection mechanism and scan angle adjustment mechanism
US20040026512A1 (en)*2002-04-232004-02-12Yusuke OtsuboOptical unit for optical symbol reader
US6969005B2 (en)2002-04-232005-11-29Keyence CorporationOptical unit for optical symbol reader
US20040197046A1 (en)*2003-04-022004-10-07Drost Robert J.Optical communication between face-to-face semiconductor chips
US7416129B2 (en)2003-07-232008-08-26Symbol Technologies, Inc.Mobile terminal with ergonomic housing
US7195169B2 (en)*2003-07-232007-03-27Symbol Technologies, Inc.Mobile terminal with ergonomic housing
US20070108291A1 (en)*2003-07-232007-05-17Symbol Technologies, Inc.Mobile terminal with ergonomic housing
US20070158429A1 (en)*2003-07-232007-07-12Symbol Technologies, Inc.Mobile terminal with ergonomic housing
US7175094B2 (en)2003-07-232007-02-13Symbol Technologics, Inc.Mobile terminal with handle that houses a stylus
US7562824B2 (en)2003-07-232009-07-21Symbol Technologies, IncMobile terminal with ergonomic housing
US20050017077A1 (en)*2003-07-232005-01-27Sudhir BhatiaMobile terminal with ergonomic housing
US20050017078A1 (en)*2003-07-232005-01-27Sudhir BhatiaMobile terminal with handle that houses a stylus
US7428997B2 (en)2003-07-292008-09-30Microvision, Inc.Method and apparatus for illuminating a field-of-view and capturing an image
US20070145136A1 (en)*2003-07-292007-06-28Microvision, Inc.Apparatus and method for projecting a variable pattern of electromagnetic energy
US20050023356A1 (en)*2003-07-292005-02-03Microvision, Inc., A Corporation Of The State Of WashingtonMethod and apparatus for illuminating a field-of-view and capturing an image
US20080023551A1 (en)*2003-10-082008-01-31Thomas BoehmSystem and method for configuring an omnidirectional scanner
US20050077359A1 (en)*2003-10-082005-04-14Thomas BoehmSystem and method for configuring an omnidirectional scanner
US9299053B2 (en)2003-12-172016-03-29West View Research, LlcPortable computerized wireless apparatus
US11870778B2 (en)2003-12-172024-01-09West View Research, LlcComputerized apparatus and methods for user authentication and object handling
US10057265B2 (en)2003-12-172018-08-21West View Research, LlcComputerized vehicular apparatus for location-based service provision
US9781110B2 (en)2003-12-172017-10-03West View Research, LlcComputerized methods for location-based service provision
US9607280B2 (en)2003-12-172017-03-28West View Research, LlcMethods for shipping element processing
US10686784B2 (en)2003-12-172020-06-16West View Research, LlcComputerized apparatus and methods for location-based service provision
US9424547B2 (en)2003-12-172016-08-23West View Research, LlcMethods of transport of one or more items between locations
US9396450B2 (en)2003-12-172016-07-19West View Research, LlcComputerized apparatus and methods for transfer between locations
US9349112B2 (en)2003-12-172016-05-24West View Research, LlcComputerized apparatus for transfer between locations
US11240238B2 (en)2003-12-172022-02-01West View Research, LlcComputerized apparatus and methods for location-based service provision
US9033226B1 (en)2003-12-172015-05-19West View Research, LlcPortable computerized wireless apparatus
US20050150959A1 (en)*2004-01-092005-07-14John IzzoOptical reader
US20110205076A1 (en)*2004-04-062011-08-25Symbol Technologies, Inc.System and method for monitoring a mobile compputing product/arrangement
US20110205376A1 (en)*2004-04-062011-08-25Symbol Technologies, Inc.System and method for monitoring a mobile computing product/arrangement
US20100100623A1 (en)*2004-04-062010-04-22Thomas WulffSystem and method for monitoring a mobile computing product/arrangement
US8773260B2 (en)2004-04-062014-07-08Symbol Technologies, Inc.System and method for monitoring a mobile computing product/arrangement
US11017097B2 (en)2004-05-142021-05-25Peter N. ChingSystems and methods for prevention of unauthorized access to resources of an information system
US20110035321A1 (en)*2004-05-142011-02-10Ching Peter NMulti-way transaction related data exchange apparatus and methods
US8862518B2 (en)2004-05-142014-10-14Peter N. ChingMulti-way transaction related data exchange apparatus and methods
US7299985B2 (en)2004-08-312007-11-27Symbol Technologies, Inc.Transmitting enhanced scanner signals on a single channel
US20060043192A1 (en)*2004-08-312006-03-02Symbol Technologies, Inc.Transmitting enhanced scanner signals on a single channel
US20080121714A1 (en)*2004-08-312008-05-29Symbol Technologies, Inc.Transmitting Enhanced Scanner Signals on a Single Channel
US20060192011A1 (en)*2005-02-252006-08-31Symbol Technologies, Inc.Bar code signal processing
US7204423B2 (en)2005-02-252007-04-17Symbol Technologies, Inc.Bar code signal processing
US20060261168A1 (en)*2005-05-202006-11-23Polaroid CorporationPrint medium feature encoding and decoding
US7905409B2 (en)2005-05-202011-03-15Senshin Capital, LlcPrint medium feature encoding and decoding
US7331524B2 (en)2005-05-312008-02-19Symbol Technologies, Inc.Feedback mechanism for scanner devices
US20060266840A1 (en)*2005-05-312006-11-30Symbol Technologies, Inc.Feedback mechanism for scanner devices
WO2007001681A3 (en)*2005-06-242009-04-30Symbol Technologies IncAn arrangement for, and a method of, reducing image distortion due to electrical interference
US20060290774A1 (en)*2005-06-242006-12-28Carl WittenbergArrangement for, and a method of, reducing image distortion due to electrical interference
US7307650B2 (en)*2005-06-242007-12-11Symbol Technologies, Inc.Arrangement for, and a method of, reducing image distortion due to electrical interference
US7556203B2 (en)2005-06-272009-07-07Hand Held Products, Inc.Method and system for linking a wireless hand held optical reader with a base unit or other wireless device
US20070174916A1 (en)*2005-10-282007-07-26Ching Peter NMethod and apparatus for secure data transfer
US20070171329A1 (en)*2005-11-212007-07-26Freeman Mark ODisplay with image-guiding substrate
US20070159673A1 (en)*2005-11-212007-07-12Freeman Mark OSubstrate-guided display with improved image quality
US20070171328A1 (en)*2005-11-212007-07-26Freeman Mark OSubstrate-guided display
US7710655B2 (en)2005-11-212010-05-04Microvision, Inc.Display with image-guiding substrate
WO2007062098A3 (en)*2005-11-212007-11-22Microvision IncDisplay with image-guiding substrate
US7959308B2 (en)2005-11-212011-06-14Microvision, Inc.Substrate-guided display with improved image quality
US7905603B2 (en)2005-11-212011-03-15Microvision, Inc.Substrate-guided display having polarization selective input structure
US7736006B2 (en)2005-11-212010-06-15Microvision, Inc.Substrate-guided display with improved image quality
US7932457B2 (en)2006-01-272011-04-26University Of South FloridaAccelerated aging process for acoustic stringed instruments
US7977555B2 (en)2006-01-272011-07-12University Of South FloridaMethod of modifying the frequency response of a wooden article
US8662245B1 (en)2006-01-272014-03-04University Of South FloridaFrequency response treatment of wood paneling
US20080289483A1 (en)*2006-01-272008-11-27University Of South FloridaMethod of modifying the frequency response of a wooden article
US20070176003A1 (en)*2006-01-312007-08-02Symbol Technologies, Inc.Extended working range illumination system for an imaging-based bar code reader
US7748629B2 (en)2006-01-312010-07-06Symbol Technologies, Inc.Extended working range illumination system for an imaging-based bar code reader
US7501616B2 (en)*2006-05-252009-03-10Microvision, Inc.Method and apparatus for capturing an image of a moving object
US20070272841A1 (en)*2006-05-252007-11-29Microvision, Inc.Method and apparatus for capturing an image of a moving object
US7857219B2 (en)2006-05-262010-12-28Symbol Technologies, Inc.Imaging reader target object finder system
US20070284441A1 (en)*2006-06-132007-12-13Joseph WalczykMethod and apparatus for uniquely associating a bar code reading terminal to a cash register in a retail store network
US7686216B2 (en)2006-06-132010-03-30Hand Held Products, Inc.Method and apparatus for uniquely associating a bar code reading terminal to a cash register in a retail store network
US8141781B2 (en)2006-12-292012-03-27Datalogic Scanning Group S.R.L.Laser light beam scanning device for reading coded information and scanning optical element for such device
US20100051797A1 (en)*2006-12-292010-03-04Datalogic Scanning Group S.R.L.Laser light beam scanning device for reading coded information and scanning optical element for such device
US20100269601A1 (en)*2007-06-222010-10-28Decagon Devices, Inc.Apparatus, method, and system for measuring water activity and weight
US20080317089A1 (en)*2007-06-222008-12-25Decagon Devices, Inc.Apparatus, Method, and System for Measuring Water Activity and Weight
US7806585B2 (en)2007-06-222010-10-05Decagon Devices, Inc.Apparatus, method, and system for measuring water activity and weight
US8079757B2 (en)2007-06-222011-12-20Decagon Devices, Inc.Apparatus, method, and system for measuring water activity and weight
US20090015929A1 (en)*2007-07-102009-01-15Microvision, Inc.Substrate-guided relays for use with scanned beam light sources
US20090251788A1 (en)*2007-07-102009-10-08Microvision, Inc.Optical Device for Use with Scanned Beam Light Sources
US7589901B2 (en)2007-07-102009-09-15Microvision, Inc.Substrate-guided relays for use with scanned beam light sources
US7839575B2 (en)2007-07-102010-11-23Microvision, Inc.Optical device for use with scanned beam light sources
USD601557S1 (en)2007-08-062009-10-06Data Ltd., Inc.Tablet computer
US20090039167A1 (en)*2007-08-102009-02-12Hand-Held Products, Inc.Indicia reading terminal having spatial measurement functionality
US7726575B2 (en)2007-08-102010-06-01Hand Held Products, Inc.Indicia reading terminal having spatial measurement functionality
US20090057409A1 (en)*2007-08-302009-03-05Nina FeinsteinAutomatic raster height and speed adjustment in programmable electeo-optical readers for reading two-dimensional symbols of different heights
US7854382B2 (en)2007-08-302010-12-21Symbol Technologies, Inc.Light collection assembly with self-retaining lens in electro-optical reader
US20090057405A1 (en)*2007-08-302009-03-05Carl WittenbergLight collection assembly with self-retaining lens in electro-optical reader
US20090057412A1 (en)*2007-08-302009-03-05Bhella Kenneth SDiagnosing malfunction of electro-optical reader
US20090140049A1 (en)*2007-11-302009-06-04Rong LiuStray light reduction in imaging reader
US8378645B2 (en)*2008-04-152013-02-19Alstom Technology LtdMethod for monitoring an electrodynamic machine
US20110084671A1 (en)*2008-04-152011-04-14Alstom Technology LtdMethod for monitoring an electrodynamic machine
US20100225757A1 (en)*2009-03-042010-09-09Hand Held Products, Inc.System and method for measuring irregular objects with a single camera
US8643717B2 (en)2009-03-042014-02-04Hand Held Products, Inc.System and method for measuring irregular objects with a single camera
USD635568S1 (en)2009-06-092011-04-05Data Ltd., Inc.Tablet computer
USD654499S1 (en)2009-06-092012-02-21Data Ltd., Inc.Tablet computer
USD638834S1 (en)2009-10-052011-05-31Data Ltd., Inc.Tablet computer
US20120168513A1 (en)*2010-12-302012-07-05Honeywell International Inc.Bar code imagers
US8531773B2 (en)2011-01-102013-09-10Microvision, Inc.Substrate guided relay having a homogenizing layer
US8391668B2 (en)2011-01-132013-03-05Microvision, Inc.Substrate guided relay having an absorbing edge to reduce alignment constraints
USD690296S1 (en)2011-02-012013-09-24Data Ltd., Inc.Tablet computer
US8570629B2 (en)2011-09-232013-10-29Steve SpearsReciprocating laser scanning device
CN107590409B (en)*2012-05-252020-11-06计量仪器公司Laser scanning code symbol reading system employing programmable decoding time window filtering
CN107590409A (en)*2012-05-252018-01-16计量仪器公司System is read using the laser scanning code sign of programmable decoding time window filtering
US10937013B2 (en)2013-01-132021-03-02Retail Technologies CorporationPoint of sale (POS) docking station system and method for a mobile tablet gun system with mobile tablet device
US10970674B2 (en)2013-01-132021-04-06Retailtechnologies CorporationMobile tablet gun system with mobile tablet having a mobile POS and enterprise resource planning application for POS customer order fulfillment and in-store inventory management for retail establishment
US10453047B2 (en)2013-01-132019-10-22Retail Technologies CorporationMobile scanner gun system with mobile tablet having a mobile POS and enterprise resource planning application for POS customer order fulfillment and in store inventory management for retail establishment
CN112014827A (en)*2019-05-282020-12-01度逢株式会社Object detection device
US10852431B1 (en)2019-05-282020-12-01Dolphin Co., Ltd.Actuator and object detecting apparatus
US10878984B2 (en)2019-05-282020-12-29Dolphin Co., Ltd.Actuator, light scanning apparatus and object detecting apparatus
CN112014827B (en)*2019-05-282024-06-11度逢株式会社Object detection device
US20230011457A1 (en)*2021-07-072023-01-12Beijing Voyager Technology Co., Ltd.Temperature control through thermal recycle
US11947050B2 (en)*2021-07-072024-04-02Beijing Voyager Technology Co., Ltd.Temperature control through thermal recycle

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CA1154872A (en)1983-10-04
US4387297B1 (en)1995-09-12
GB2134679B (en)1985-03-13
GB2134679A (en)1984-08-15
JPS56140467A (en)1981-11-02
JPH0380386A (en)1991-04-05
DE3107922C2 (en)1985-09-19
JPH02288986A (en)1990-11-28
JPS6360435B2 (en)1988-11-24
GB2070832A (en)1981-09-09
JPH0352109B2 (en)1991-08-08
JPH02288988A (en)1990-11-28
DE3153253C2 (en)1988-08-11
IT1138713B (en)1986-09-17
GB8328690D0 (en)1983-11-30
FR2477302B1 (en)1987-01-09
FR2477302A1 (en)1981-09-04
IT8120091A0 (en)1981-03-02
JPH02288987A (en)1990-11-28
JPH02282879A (en)1990-11-20
DE3107922A1 (en)1982-03-18
JPH0352110B2 (en)1991-08-08
JPH02282880A (en)1990-11-20
HK52588A (en)1988-07-22
GB2070832B (en)1984-09-19
DE3153253A1 (en)1985-04-25
SG75287G (en)1989-06-09

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